From e991548f3853662219fc1116376f5a3b98eee21e Mon Sep 17 00:00:00 2001
From: The Open Journals editorial robot
 <89919391+editorialbot@users.noreply.github.com>
Date: Sat, 15 Jun 2024 13:48:16 +0100
Subject: [PATCH] Creating 10.21105.joss.06032.crossref.xml

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+            <author>Lange</author>
+            <journal_title>Physical Review D</journal_title>
+            <issue>10</issue>
+            <volume>96</volume>
+            <doi>10.1103/physrevd.96.104041</doi>
+            <issn>2470-0029</issn>
+            <cYear>2017</cYear>
+            <unstructured_citation>Lange, J., O’Shaughnessy, R., Boyle,
+M., Calderón Bustillo, J., Campanelli, M., Chu, T., Clark, J. A., Demos,
+N., Fong, H., Healy, J., Hemberger, D. A., Hinder, I., Jani, K.,
+Khamesra, B., Kidder, L. E., Kumar, P., Laguna, P., Lousto, C. O.,
+Lovelace, G., … Zlochower, Y. (2017). Parameter estimation method that
+directly compares gravitational wave observations to numerical
+relativity. Physical Review D, 96(10).
+https://doi.org/10.1103/physrevd.96.104041</unstructured_citation>
+          </citation>
+          <citation key="Herrmann_2007">
+            <article_title>Unequal mass binary black hole plunges and
+gravitational recoil</article_title>
+            <author>Herrmann</author>
+            <journal_title>Classical and Quantum Gravity</journal_title>
+            <issue>12</issue>
+            <volume>24</volume>
+            <doi>10.1088/0264-9381/24/12/S04</doi>
+            <cYear>2007</cYear>
+            <unstructured_citation>Herrmann, F., Hinder, I., Shoemaker,
+D., &amp; Laguna, P. (2007). Unequal mass binary black hole plunges and
+gravitational recoil. Classical and Quantum Gravity, 24(12), S33.
+https://doi.org/10.1088/0264-9381/24/12/S04</unstructured_citation>
+          </citation>
+          <citation key="Jani:2016wkt">
+            <article_title>Georgia Tech Catalog of Gravitational
+Waveforms</article_title>
+            <author>Jani</author>
+            <journal_title>Class. Quant. Grav.</journal_title>
+            <issue>20</issue>
+            <volume>33</volume>
+            <doi>10.1088/0264-9381/33/20/204001</doi>
+            <cYear>2016</cYear>
+            <unstructured_citation>Jani, K., Healy, J., Clark, J. A.,
+London, L., Laguna, P., &amp; Shoemaker, D. (2016). Georgia Tech Catalog
+of Gravitational Waveforms. Class. Quant. Grav., 33(20), 204001.
+https://doi.org/10.1088/0264-9381/33/20/204001</unstructured_citation>
+          </citation>
+          <citation key="L_ffler_2012">
+            <article_title>The einstein toolkit: A community
+computational infrastructure for relativistic
+astrophysics</article_title>
+            <author>Löffler</author>
+            <journal_title>Classical and Quantum Gravity</journal_title>
+            <issue>11</issue>
+            <volume>29</volume>
+            <doi>10.1088/0264-9381/29/11/115001</doi>
+            <issn>1361-6382</issn>
+            <cYear>2012</cYear>
+            <unstructured_citation>Löffler, F., Faber, J., Bentivegna,
+E., Bode, T., Diener, P., Haas, R., Hinder, I., Mundim, B. C., Ott, C.
+D., Schnetter, E., Allen, G., Campanelli, M., &amp; Laguna, P. (2012).
+The einstein toolkit: A community computational infrastructure for
+relativistic astrophysics. Classical and Quantum Gravity, 29(11),
+115001.
+https://doi.org/10.1088/0264-9381/29/11/115001</unstructured_citation>
+          </citation>
+          <citation key="Vaishnav:2007nm">
+            <article_title>Matched filtering of numerical relativity
+templates of spinning binary black holes</article_title>
+            <author>Vaishnav</author>
+            <journal_title>Phys. Rev. D</journal_title>
+            <volume>76</volume>
+            <doi>10.1103/PhysRevD.76.084020</doi>
+            <cYear>2007</cYear>
+            <unstructured_citation>Vaishnav, B., Hinder, I., Herrmann,
+F., &amp; Shoemaker, D. (2007). Matched filtering of numerical
+relativity templates of spinning binary black holes. Phys. Rev. D, 76,
+084020.
+https://doi.org/10.1103/PhysRevD.76.084020</unstructured_citation>
+          </citation>
+          <citation key="Healy:2009zm">
+            <article_title>Zoom-Whirl Orbits in Black Hole
+Binaries</article_title>
+            <author>Healy</author>
+            <journal_title>Phys. Rev. Lett.</journal_title>
+            <volume>103</volume>
+            <doi>10.1103/PhysRevLett.103.131101</doi>
+            <cYear>2009</cYear>
+            <unstructured_citation>Healy, J., Levin, J., &amp;
+Shoemaker, D. (2009). Zoom-Whirl Orbits in Black Hole Binaries. Phys.
+Rev. Lett., 103, 131101.
+https://doi.org/10.1103/PhysRevLett.103.131101</unstructured_citation>
+          </citation>
+          <citation key="Pekowsky:2013ska">
+            <article_title>Comparing gravitational waves from
+nonprecessing and precessing black hole binaries in the corotating
+frame</article_title>
+            <author>Pekowsky</author>
+            <journal_title>Phys. Rev. D</journal_title>
+            <issue>2</issue>
+            <volume>88</volume>
+            <doi>10.1103/PhysRevD.88.024040</doi>
+            <cYear>2013</cYear>
+            <unstructured_citation>Pekowsky, L., O’Shaughnessy, R.,
+Healy, J., &amp; Shoemaker, D. (2013). Comparing gravitational waves
+from nonprecessing and precessing black hole binaries in the corotating
+frame. Phys. Rev. D, 88(2), 024040.
+https://doi.org/10.1103/PhysRevD.88.024040</unstructured_citation>
+          </citation>
+          <citation key="Bozzola_kuibit_2021">
+            <article_title>kuibit</article_title>
+            <author>Bozzola</author>
+            <doi>10.21105/joss.03099</doi>
+            <cYear>2021</cYear>
+            <unstructured_citation>Bozzola, G. (2021). kuibit (Version
+1.0.0). https://doi.org/10.21105/joss.03099</unstructured_citation>
+          </citation>
+          <citation key="Hinder">
+            <article_title>SimulationTools</article_title>
+            <author>Hinder</author>
+            <unstructured_citation>Hinder, I., &amp; Wardell, B. (n.d.).
+SimulationTools. http://simulationtools.org</unstructured_citation>
+          </citation>
+          <citation key="2021ascl.soft07017K">
+            <article_title>PyCactus: Post-processing tools for Cactus
+computational toolkit simulation data</article_title>
+            <author>Kastaun</author>
+            <cYear>2021</cYear>
+            <unstructured_citation>Kastaun, W. (2021). PyCactus:
+Post-processing tools for Cactus computational toolkit simulation data.
+Astrophysics Source Code Library, record
+ascl:2107.017.</unstructured_citation>
+          </citation>
+          <citation key="Johnson_2018">
+            <article_title>Python open source waveform ExtractoR
+(POWER): An open source, python package to monitor and post-process
+numerical relativity simulations</article_title>
+            <author>Johnson</author>
+            <journal_title>Classical and Quantum Gravity</journal_title>
+            <issue>2</issue>
+            <volume>35</volume>
+            <doi>10.1088/1361-6382/aa9cad</doi>
+            <cYear>2017</cYear>
+            <unstructured_citation>Johnson, D., Huerta, E. A., &amp;
+Haas, R. (2017). Python open source waveform ExtractoR (POWER): An open
+source, python package to monitor and post-process numerical relativity
+simulations. Classical and Quantum Gravity, 35(2), 027002.
+https://doi.org/10.1088/1361-6382/aa9cad</unstructured_citation>
+          </citation>
+          <citation key="Baumgarte:1998te">
+            <article_title>On the numerical integration of Einstein’s
+field equations</article_title>
+            <author>Baumgarte</author>
+            <journal_title>Phys. Rev. D</journal_title>
+            <volume>59</volume>
+            <doi>10.1103/PhysRevD.59.024007</doi>
+            <cYear>1998</cYear>
+            <unstructured_citation>Baumgarte, T. W., &amp; Shapiro, S.
+L. (1998). On the numerical integration of Einstein’s field equations.
+Phys. Rev. D, 59, 024007.
+https://doi.org/10.1103/PhysRevD.59.024007</unstructured_citation>
+          </citation>
+          <citation key="PhysRevD.52.5428">
+            <article_title>Evolution of three-dimensional gravitational
+waves: Harmonic slicing case</article_title>
+            <author>Shibata</author>
+            <journal_title>Phys. Rev. D</journal_title>
+            <volume>52</volume>
+            <doi>10.1103/PhysRevD.52.5428</doi>
+            <cYear>1995</cYear>
+            <unstructured_citation>Shibata, M., &amp; Nakamura, T.
+(1995). Evolution of three-dimensional gravitational waves: Harmonic
+slicing case. Phys. Rev. D, 52, 5428–5444.
+https://doi.org/10.1103/PhysRevD.52.5428</unstructured_citation>
+          </citation>
+          <citation key="Schnetter:2003rb">
+            <article_title>Evolutions in 3-D numerical relativity using
+fixed mesh refinement</article_title>
+            <author>Schnetter</author>
+            <journal_title>Class. Quant. Grav.</journal_title>
+            <volume>21</volume>
+            <doi>10.1088/0264-9381/21/6/014</doi>
+            <cYear>2004</cYear>
+            <unstructured_citation>Schnetter, E., Hawley, S. H., &amp;
+Hawke, I. (2004). Evolutions in 3-D numerical relativity using fixed
+mesh refinement. Class. Quant. Grav., 21, 1465–1488.
+https://doi.org/10.1088/0264-9381/21/6/014</unstructured_citation>
+          </citation>
+          <citation key="Goodale2002a">
+            <article_title>The Cactus framework and toolkit: Design and
+applications</article_title>
+            <author>Goodale</author>
+            <journal_title>Vector and parallel processing – VECPAR’2002,
+5th international conference, lecture notes in computer
+science</journal_title>
+            <doi>10.1007/3-540-36569-9_13</doi>
+            <cYear>2003</cYear>
+            <unstructured_citation>Goodale, T., Allen, G., Lanfermann,
+G., Massó, J., Radke, T., Seidel, E., &amp; Shalf, J. (2003). The Cactus
+framework and toolkit: Design and applications. Vector and Parallel
+Processing – VECPAR’2002, 5th International Conference, Lecture Notes in
+Computer Science.
+https://doi.org/10.1007/3-540-36569-9_13</unstructured_citation>
+          </citation>
+          <citation key="ferguson2023second">
+            <article_title>Second MAYA catalog of binary black hole
+numerical relativity waveforms</article_title>
+            <author>Ferguson</author>
+            <doi>10.48550/arXiv.2309.00262</doi>
+            <cYear>2023</cYear>
+            <unstructured_citation>Ferguson, D., Allsup, E., Anne, S.,
+Bouyer, G., Gracia-Linares, M., Iglesias, H., Jan, A., Laguna, P.,
+Lange, J., Martinez, E., Meoni, F., Nowicki, R., Shoemaker, D.,
+Steadham, B., Trostel, M. L., Tsao, B.-J., &amp; Valorz, F. (2023).
+Second MAYA catalog of binary black hole numerical relativity waveforms.
+https://doi.org/10.48550/arXiv.2309.00262</unstructured_citation>
+          </citation>
+          <citation key="Jan:2023raq">
+            <article_title>Accuracy limitations of existing numerical
+relativity waveforms on the data analysis of current and future
+ground-based detectors</article_title>
+            <author>Jan</author>
+            <doi>10.48550/arXiv.2312.10241</doi>
+            <cYear>2023</cYear>
+            <unstructured_citation>Jan, A., Ferguson, D., Lange, J.,
+Shoemaker, D., &amp; Zimmerman, A. (2023). Accuracy limitations of
+existing numerical relativity waveforms on the data analysis of current
+and future ground-based detectors.
+https://doi.org/10.48550/arXiv.2312.10241</unstructured_citation>
+          </citation>
+          <citation key="tsao2024black">
+            <article_title>Black hole - neutron star binary mergers: The
+impact of stellar compactness</article_title>
+            <author>Tsao</author>
+            <doi>10.48550/arXiv.2404.09924</doi>
+            <cYear>2024</cYear>
+            <unstructured_citation>Tsao, B.-J., Khamesra, B.,
+Gracia-Linares, M., &amp; Laguna, P. (2024). Black hole - neutron star
+binary mergers: The impact of stellar compactness.
+https://doi.org/10.48550/arXiv.2404.09924</unstructured_citation>
+          </citation>
+        </citation_list>
+      </journal_article>
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