#ifndef _STAR_H_ #define _STAR_H_ #include #include #include #include #include #include "jcmacros.h" // Speed of light in m/s and Planck's constant in joules/s definition #ifndef LIGHTSPEED_mps #define LIGHTSPEED_mps 3.000E8 #endif #ifndef PLANCK_si #define PLANCK_si 6.626E-34 #endif #ifndef PI #define PI 3.1415927 #endif // Wavelengths range for U, B and V magnitude #ifndef ULMIN_nm #define ULMIN_nm 290.0 // the true limit is approx. 310 nm, but we extend this #endif // in order to cover the complete PMT sensitivity #ifndef ULMAX_nm #define ULMAX_nm 390.0 #endif #ifndef BLMIN_nm #define BLMIN_nm 390.0 #endif #ifndef BLMAX_nm #define BLMAX_nm 500.0 #endif #ifndef VLMIN_nm #define VLMIN_nm 500.0 #endif #ifndef VLMAX_nm #define VLMAX_nm 590.0 #endif #ifndef RLMIN_nm #define RLMIN_nm 590.0 #endif #ifndef RLMAX_nm #define RLMAX_nm 800.0 #endif #ifndef SKY2000LINELENGTH #define SKY2000LINELENGTH 520 #endif class star{ public: int icatnum; float ra_h, dec_deg, umag, bmag, vmag, rmag; float u, v; float ra_rad, dec_rad; int numphot; star(); // constructor int readstar(FILE *fp, int verbose); // read one star from the catalog, return TRUE int printstar(); // write the parameters of one star to stdout float calcmissingmags(int verbose);// calculate the magnitudes for those wavebands in which no data // is available assuming a black body and using the V and B mags int mag_nphot(int nph[4], float triggate_s, float radius_m, int verbose); // translate the star magnitude into number of photons }; #endif