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palFk524.c
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palFk524.c
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/*
*+
* Name:
* palFk524
* Purpose:
* Convert J2000.0 FK5 star data to B1950.0 FK4.
* Language:
* Starlink ANSI C
* Type of Module:
* Library routine
* Invocation:
* palFk524( double r2000, double d2000, double dr2000, double dd2000,
* double p2000, double v2000, double *r1950, double *d1950,
* double *dr1950, double *dd1950, double *p1950, double *v1950 )
* Arguments:
* r2000 = double (Given)
* J2000.0 FK5 RA (radians).
* d2000 = double (Given)
* J2000.0 FK5 Dec (radians).
* dr2000 = double (Given)
* J2000.0 FK5 RA proper motion (rad/Jul.yr)
* dd2000 = double (Given)
* J2000.0 FK5 Dec proper motion (rad/Jul.yr)
* p2000 = double (Given)
* J2000.0 FK5 parallax (arcsec)
* v2000 = double (Given)
* J2000.0 FK5 radial velocity (km/s, +ve = moving away)
* r1950 = double * (Returned)
* B1950.0 FK4 RA (radians).
* d1950 = double * (Returned)
* B1950.0 FK4 Dec (radians).
* dr1950 = double * (Returned)
* B1950.0 FK4 RA proper motion (rad/Jul.yr)
* dd1950 = double * (Returned)
* B1950.0 FK4 Dec proper motion (rad/Jul.yr)
* p1950 = double * (Returned)
* B1950.0 FK4 parallax (arcsec)
* v1950 = double * (Returned)
* B1950.0 FK4 radial velocity (km/s, +ve = moving away)
* Description:
* This function converts stars from the IAU 1976, FK5, Fricke
* system, to the Bessel-Newcomb, FK4 system. The precepts
* of Smith et al (Ref 1) are followed, using the implementation
* by Yallop et al (Ref 2) of a matrix method due to Standish.
* Kinoshita's development of Andoyer's post-Newcomb precession is
* used. The numerical constants from Seidelmann et al (Ref 3) are
* used canonically.
* Notes:
* - The proper motions in RA are dRA/dt rather than
* cos(Dec)*dRA/dt, and are per year rather than per century.
* - Note that conversion from Julian epoch 2000.0 to Besselian
* epoch 1950.0 only is provided for. Conversions involving
* other epochs will require use of the appropriate precession,
* proper motion, and E-terms routines before and/or after
* FK524 is called.
* - In the FK4 catalogue the proper motions of stars within
* 10 degrees of the poles do not embody the differential
* E-term effect and should, strictly speaking, be handled
* in a different manner from stars outside these regions.
* However, given the general lack of homogeneity of the star
* data available for routine astrometry, the difficulties of
* handling positions that may have been determined from
* astrometric fields spanning the polar and non-polar regions,
* the likelihood that the differential E-terms effect was not
* taken into account when allowing for proper motion in past
* astrometry, and the undesirability of a discontinuity in
* the algorithm, the decision has been made in this routine to
* include the effect of differential E-terms on the proper
* motions for all stars, whether polar or not. At epoch 2000,
* and measuring on the sky rather than in terms of dRA, the
* errors resulting from this simplification are less than
* 1 milliarcsecond in position and 1 milliarcsecond per
* century in proper motion.
*
* References:
* - Smith, C.A. et al, 1989. "The transformation of astrometric
* catalog systems to the equinox J2000.0". Astron.J. 97, 265.
* - Yallop, B.D. et al, 1989. "Transformation of mean star places
* from FK4 B1950.0 to FK5 J2000.0 using matrices in 6-space".
* Astron.J. 97, 274.
* - Seidelmann, P.K. (ed), 1992. "Explanatory Supplement to
* the Astronomical Almanac", ISBN 0-935702-68-7.
* Authors:
* PTW: Pat Wallace (STFC)
* DSB: David Berry (JAC, Hawaii)
* {enter_new_authors_here}
* History:
* 2012-02-13 (DSB):
* Initial version with documentation taken from Fortran SLA
* Adapted with permission from the Fortran SLALIB library.
* {enter_further_changes_here}
* Copyright:
* Copyright (C) 1995 Rutherford Appleton Laboratory
* Copyright (C) 2012 Science and Technology Facilities Council.
* All Rights Reserved.
* Licence:
* This program is free software: you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation, either
* version 3 of the License, or (at your option) any later
* version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General
* License along with this program. If not, see
* <http://www.gnu.org/licenses/>.
* Bugs:
* {note_any_bugs_here}
*-
*/
#include "pal.h"
#include "palmac.h"
#include "math.h"
void palFk524( double r2000, double d2000, double dr2000, double dd2000,
double p2000, double v2000, double *r1950, double *d1950,
double *dr1950, double *dd1950, double *p1950, double *v1950 ){
/* Local Variables; */
double r, d, ur, ud, px, rv;
double sr, cr, sd, cd, x, y, z, w;
double v1[ 6 ], v2[ 6 ];
double xd, yd, zd;
double rxyz, wd, rxysq, rxy;
int i, j;
/* Small number to avoid arithmetic problems. */
static const double tiny = 1.0E-30;
/* Canonical constants (see references). Constant vector and matrix. */
double a[ 6 ] = { -1.62557E-6, -0.31919E-6, -0.13843E-6,
+1.245E-3, -1.580E-3, -0.659E-3 };
double emi[ 6 ][ 6 ] = {
{ 0.9999256795, 0.0111814828, 0.0048590039,
-0.00000242389840, -0.00000002710544, -0.00000001177742},
{-0.0111814828, 0.9999374849, -0.0000271771,
0.00000002710544, -0.00000242392702, 0.00000000006585 },
{-0.0048590040, -0.0000271557, 0.9999881946,
0.00000001177742, 0.00000000006585, -0.00000242404995 },
{-0.000551, 0.238509, -0.435614,
0.99990432, 0.01118145, 0.00485852 },
{-0.238560, -0.002667, 0.012254,
-0.01118145, 0.99991613, -0.00002717},
{ 0.435730, -0.008541, 0.002117,
-0.00485852, -0.00002716, 0.99996684 } };
/* Pick up J2000 data (units radians and arcsec/JC). */
r = r2000;
d = d2000;
ur = dr2000*PAL__PMF;
ud = dd2000*PAL__PMF;
px = p2000;
rv = v2000;
/* Spherical to Cartesian. */
sr = sin( r );
cr = cos( r );
sd = sin( d );
cd = cos( d );
x = cr*cd;
y = sr*cd;
z = sd;
w = PAL__VF*rv*px;
v1[ 0 ] = x;
v1[ 1 ] = y;
v1[ 2 ] = z;
v1[ 3 ] = -ur*y - cr*sd*ud + w*x;
v1[ 4 ] = ur*x - sr*sd*ud + w*y;
v1[ 5 ] = cd*ud + w*z;
/* Convert position+velocity vector to BN system. */
for( i = 0; i < 6; i++ ) {
w = 0.0;
for( j = 0; j < 6; j++ ) {
w += emi[ i ][ j ]*v1[ j ];
}
v2[ i ] = w;
}
/* Position vector components and magnitude. */
x = v2[ 0 ];
y = v2[ 1 ];
z = v2[ 2 ];
rxyz = sqrt( x*x + y*y + z*z );
/* Apply E-terms to position. */
w = x*a[ 0 ] + y*a[ 1 ] + z*a[ 2 ];
x += a[ 0 ]*rxyz - w*x;
y += a[ 1 ]*rxyz - w*y;
z += a[ 2 ]*rxyz - w*z;
/* Recompute magnitude. */
rxyz = sqrt( x*x + y*y + z*z );
/* Apply E-terms to both position and velocity. */
x = v2[ 0 ];
y = v2[ 1 ];
z = v2[ 2 ];
w = x*a[ 0 ] + y*a[ 1 ] + z*a[ 2 ];
wd = x*a[ 3 ] + y*a[ 4 ] + z*a[ 5 ];
x += a[ 0 ]*rxyz - w*x;
y += a[ 1 ]*rxyz - w*y;
z += a[ 2 ]*rxyz - w*z;
xd = v2[ 3 ] + a[ 3 ]*rxyz - wd*x;
yd = v2[ 4 ] + a[ 4 ]*rxyz - wd*y;
zd = v2[ 5 ] + a[ 5 ]*rxyz - wd*z;
/* Convert to spherical. */
rxysq = x*x + y*y;
rxy = sqrt( rxysq );
if( x == 0.0 && y == 0.0 ) {
r = 0.0;
} else {
r = atan2( y, x );
if( r < 0.0 ) r += PAL__D2PI;
}
d = atan2( z, rxy );
if( rxy > tiny ) {
ur = ( x*yd - y*xd )/rxysq;
ud = ( zd*rxysq - z*( x*xd + y*yd ) )/( ( rxysq + z*z )*rxy );
}
/* Radial velocity and parallax. */
if( px > tiny ) {
rv = ( x*xd + y*yd + z*zd )/( px*PAL__VF*rxyz );
px /= rxyz;
}
/* Return results. */
*r1950 = r;
*d1950 = d;
*dr1950 = ur/PAL__PMF;
*dd1950 = ud/PAL__PMF;
*p1950 = px;
*v1950 = rv;
}