source: trunk/FACT++/pal/palFk45z.c@ 20115

Last change on this file since 20115 was 18347, checked in by tbretz, 9 years ago
File size: 6.2 KB
Line 
1/*
2*+
3* Name:
4* palFk45z
5
6* Purpose:
7* Convert B1950.0 FK4 star data to J2000.0 FK5 assuming zero
8* proper motion in the FK5 frame
9
10* Language:
11* Starlink ANSI C
12
13* Type of Module:
14* Library routine
15
16* Invocation:
17* palFk45z( double r1950, double d1950, double bepoch, double *r2000,
18* double *d2000 )
19
20* Arguments:
21* r1950 = double (Given)
22* B1950.0 FK4 RA at epoch (radians).
23* d1950 = double (Given)
24* B1950.0 FK4 Dec at epoch (radians).
25* bepoch = double (Given)
26* Besselian epoch (e.g. 1979.3)
27* r2000 = double (Returned)
28* J2000.0 FK5 RA (Radians).
29* d2000 = double (Returned)
30* J2000.0 FK5 Dec(Radians).
31
32* Description:
33* Convert B1950.0 FK4 star data to J2000.0 FK5 assuming zero
34* proper motion in the FK5 frame (double precision)
35*
36* This function converts stars from the Bessel-Newcomb, FK4
37* system to the IAU 1976, FK5, Fricke system, in such a
38* way that the FK5 proper motion is zero. Because such a star
39* has, in general, a non-zero proper motion in the FK4 system,
40* the routine requires the epoch at which the position in the
41* FK4 system was determined.
42*
43* The method is from Appendix 2 of Ref 1, but using the constants
44* of Ref 4.
45
46* Notes:
47* - The epoch BEPOCH is strictly speaking Besselian, but if a
48* Julian epoch is supplied the result will be affected only to
49* a negligible extent.
50*
51* - Conversion from Besselian epoch 1950.0 to Julian epoch 2000.0
52* only is provided for. Conversions involving other epochs will
53* require use of the appropriate precession, proper motion, and
54* E-terms routines before and/or after palFk45z is called.
55*
56* - In the FK4 catalogue the proper motions of stars within 10
57* degrees of the poles do not embody the differential E-term effect
58* and should, strictly speaking, be handled in a different manner
59* from stars outside these regions. However, given the general lack
60* of homogeneity of the star data available for routine astrometry,
61* the difficulties of handling positions that may have been
62* determined from astrometric fields spanning the polar and non-polar
63* regions, the likelihood that the differential E-terms effect was not
64* taken into account when allowing for proper motion in past
65* astrometry, and the undesirability of a discontinuity in the
66* algorithm, the decision has been made in this routine to include the
67* effect of differential E-terms on the proper motions for all stars,
68* whether polar or not. At epoch 2000, and measuring on the sky rather
69* than in terms of dRA, the errors resulting from this simplification
70* are less than 1 milliarcsecond in position and 1 milliarcsecond per
71* century in proper motion.
72*
73* References:
74* - Aoki,S., et al, 1983. Astron.Astrophys., 128, 263.
75* - Smith, C.A. et al, 1989. "The transformation of astrometric
76* catalog systems to the equinox J2000.0". Astron.J. 97, 265.
77* - Yallop, B.D. et al, 1989. "Transformation of mean star places
78* from FK4 B1950.0 to FK5 J2000.0 using matrices in 6-space".
79* Astron.J. 97, 274.
80* - Seidelmann, P.K. (ed), 1992. "Explanatory Supplement to
81* the Astronomical Almanac", ISBN 0-935702-68-7.
82
83* Authors:
84* PTW: Pat Wallace (STFC)
85* DSB: David Berry (JAC, Hawaii)
86* {enter_new_authors_here}
87
88* History:
89* 2012-02-10 (DSB):
90* Initial version with documentation taken from Fortran SLA
91* Adapted with permission from the Fortran SLALIB library.
92* {enter_further_changes_here}
93
94* Copyright:
95* Copyright (C) 1998 Rutherford Appleton Laboratory
96* Copyright (C) 2012 Science and Technology Facilities Council.
97* All Rights Reserved.
98
99* Licence:
100* This program is free software: you can redistribute it and/or
101* modify it under the terms of the GNU Lesser General Public
102* License as published by the Free Software Foundation, either
103* version 3 of the License, or (at your option) any later
104* version.
105*
106* This program is distributed in the hope that it will be useful,
107* but WITHOUT ANY WARRANTY; without even the implied warranty of
108* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
109* GNU Lesser General Public License for more details.
110*
111* You should have received a copy of the GNU Lesser General
112* License along with this program. If not, see
113* <http://www.gnu.org/licenses/>.
114
115* Bugs:
116* {note_any_bugs_here}
117*-
118*/
119
120#include "pal.h"
121#include "palmac.h"
122#include "pal1sofa.h"
123
124void palFk45z( double r1950, double d1950, double bepoch, double *r2000,
125 double *d2000 ){
126
127/* Local Variables: */
128 double w;
129 int i;
130 int j;
131 double r0[3], a1[3], v1[3], v2[6]; /* Position and position+velocity vectors */
132
133
134/* CANONICAL CONSTANTS (see references) */
135
136/* Vector A. */
137 double a[3] = { -1.62557E-6, -0.31919E-6, -0.13843E-6 };
138
139/* Vectors Adot. */
140 double ad[3] = { 1.245E-3, -1.580E-3, -0.659E-3 };
141
142/* Matrix M (only half of which is needed here). */
143 double em[6][3] = { {0.9999256782, -0.0111820611, -0.0048579477},
144 {0.0111820610, 0.9999374784, -0.0000271765},
145 {0.0048579479, -0.0000271474, 0.9999881997},
146 {-0.000551, -0.238565, 0.435739},
147 {0.238514, -0.002667, -0.008541},
148 {-0.435623, 0.012254, 0.002117} };
149
150
151/* Spherical to Cartesian. */
152 eraS2c( r1950, d1950, r0 );
153
154/* Adjust vector A to give zero proper motion in FK5. */
155 w = ( bepoch - 1950.0 )/PAL__PMF;
156 for( i = 0; i < 3; i++ ) {
157 a1[ i ] = a[ i ] + w*ad[ i ];
158 }
159
160/* Remove e-terms. */
161 w = r0[ 0 ]*a1[ 0 ] + r0[ 1 ]*a1[ 1 ] + r0[ 2 ]*a1[ 2 ];
162 for( i = 0; i < 3; i++ ) {
163 v1[ i ] = r0[ i ] - a1[ i ] + w*r0[ i ];
164 }
165
166/* Convert position vector to Fricke system. */
167 for( i = 0; i < 6; i++ ) {
168 w = 0.0;
169 for( j = 0; j < 3; j++ ) {
170 w += em[ i ][ j ]*v1[ j ];
171 }
172 v2[ i ] = w;
173 }
174
175/* Allow for fictitious proper motion in FK4. */
176 w = ( palEpj( palEpb2d( bepoch ) ) - 2000.0 )/PAL__PMF;
177 for( i = 0; i < 3; i++ ) {
178 v2[ i ] += w*v2[ i + 3 ];
179 }
180
181/* Revert to spherical coordinates. */
182 eraC2s( v2, &w, d2000 );
183 *r2000 = eraAnp( w );
184}
185
186
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