/* *+ * Name: * palRvlsrd * Purpose: * Velocity component in a given direction due to the Sun's motion * with respect to the dynamical Local Standard of Rest. * Language: * Starlink ANSI C * Type of Module: * Library routine * Invocation: * double palRvlsrd( double r2000, double d2000 ) * Arguments: * r2000 = double (Given) * J2000.0 mean RA (radians) * d2000 = double (Given) * J2000.0 mean Dec (radians) * Returned Value: * Component of "peculiar" solar motion in direction R2000,D2000 (km/s). * Description: * This function returns the velocity component in a given direction * due to the Sun's motion with respect to the dynamical Local Standard * of Rest. The result is +ve when the Sun is receding from the given * point on the sky. * Notes: * - The Local Standard of Rest used here is the "dynamical" LSR, * a point in the vicinity of the Sun which is in a circular orbit * around the Galactic centre. The Sun's motion with respect to the * dynamical LSR is called the "peculiar" solar motion. * - There is another type of LSR, called a "kinematical" LSR. A * kinematical LSR is the mean standard of rest of specified star * catalogues or stellar populations, and several slightly different * kinematical LSRs are in use. The Sun's motion with respect to an * agreed kinematical LSR is known as the "standard" solar motion. * To obtain a radial velocity correction with respect to an adopted * kinematical LSR use the routine palRvlsrk. * Reference: * - Delhaye (1965), in "Stars and Stellar Systems", vol 5, p73. * Authors: * PTW: Pat Wallace (STFC) * DSB: David Berry (JAC, Hawaii) * {enter_new_authors_here} * History: * 2012-02-16 (DSB): * Initial version. * 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 * . * Bugs: * {note_any_bugs_here} *- */ #include "pal.h" #include "pal1sofa.h" double palRvlsrd( double r2000, double d2000 ){ /* Local Variables: */ double vb[ 3 ]; /* * Peculiar solar motion from Delhaye 1965: in Galactic Cartesian * coordinates (+9,+12,+7) km/s. This corresponds to about 16.6 km/s * towards Galactic coordinates L2 = 53 deg, B2 = +25 deg, or RA,Dec * 17 49 58.7 +28 07 04 J2000. * * The solar motion is expressed here in the form of a J2000.0 * equatorial Cartesian vector: * * VA(1) = X = -SPEED*COS(RA)*COS(DEC) * VA(2) = Y = -SPEED*SIN(RA)*COS(DEC) * VA(3) = Z = -SPEED*SIN(DEC) */ double va[ 3 ] = { +0.63823, +14.58542, -7.80116 }; /* Convert given J2000 RA,Dec to x,y,z. */ eraS2c( r2000, d2000, vb ); /* Compute dot product with Solar motion vector. */ return eraPdp( va, vb ); }