// ---------------------------------------------------- // This file belongs to the ray tracing framework // for the use with Cherenkov detectors // // created 2012 //----------------------------------------------------- #include "PndDrcOptMatSF6G05.h" #include //#include "PndDrcOptMatAbs.h" // //#include "TObject.h" //#include "TVector3.h" //#include "TRandom.h" // #include using std::cout; using std::cerr; //using std::cin; using std::endl; // #include //#include //using std::valarray; // //#include //using std::fstream; // //#include //using std::string; // //#include //using std::list; //---------------------------------------------------------------------- PndDrcOptMatSF6G05::PndDrcOptMatSF6G05() { fName = "SF6G05"; fB1 = 1.62113942; fB2 = 0.506586092; fB3 = 10.4032298; fC1 = 0.0113478992; fC2 = 0.0535840223; fC3 = 1118.83658; } //---------------------------------------------------------------------- PndDrcOptMatSF6G05* PndDrcOptMatSF6G05::Clone() const { return new PndDrcOptMatSF6G05(*this); } //---------------------------------------------------------------------- void PndDrcOptMatSF6G05::Copy(const PndDrcOptMatSF6G05& mat) { fB1 = mat.fB1; fC1 = mat.fC1; fB2 = mat.fB2; fC2 = mat.fC2; fB3 = mat.fB3; fC3 = mat.fC3; }//---------------------------------------------------------------------- PndDrcOptMatSF6G05::PndDrcOptMatSF6G05(const PndDrcOptMatSF6G05& mat) : PndDrcOptMatAbs(mat) { if (mat.fVerbosity>=1) cout<<" PndDrcOptMatSF6G05::PndDrcOptMatSF6G05" <<"(const PndDrcOptMatSF6G05&) " <=1) cout<<" PndDrcOptMatSF6G05::operator=" <<"(const PndDrcOptMatSF6G05&) " <((*this)) = mat; // assignment of base class part. Copy(mat); } return *this; } //---------------------------------------------------------------------- double PndDrcOptMatSF6G05::RefIndex(const double lambda) const { if (lambda<0) return 1.80906; // average value. double lam2 = lambda/1000 * lambda/1000; // um2 return sqrt(1.0L + fB1*lam2/(lam2-fC1) + fB2*lam2/(lam2-fC2) + fB3*lam2/(lam2-fC3)); } //---------------------------------------------------------------------- double PndDrcOptMatSF6G05::RefIndexDeriv(const double lambda) const { double lam = lambda/1000; double lam2 = lam*lam; //double lam3 = lam2*lam; return ( (-fB1*fC1*lam)/((lam2-fC1)*(lam2-fC1)) + (-fB2*fC2*lam)/((lam2-fC2)*(lam2-fC2)) + (-fB3*fC3*lam)/((lam2-fC3)*(lam2-fC3)) ) / RefIndex(lambda) / 1000; } //---------------------------------------------------------------------- bool PndDrcOptMatSF6G05::AbsorptionFlag(double lambda, double length) const { // Rayleigh scattering. // data from Schott data sheets of 10mm sample const static double kLam[9] = {1060, 700, 660, 620, 580, 546, 500, 460, 436}; const static double kC[9] = { 9995, 661.7, 495 , 352.1, 233.1, 115.4, 22.56, 4.15 , 2}; // C = -10mm /ln (t_i) double clarity; if (lambda>1060) { clarity=9995; } else if (lambda<436) { return true; // cut off } else { // find right bin int ibin=-1; for (int i=1; i<9; i++) { if (lambda=kLam[i]) { ibin = i; } } if (ibin==-1) { cerr<<" *** PndDrcOptMatSF6G05::absorptionFlag: " <<"this line should never been hit"<Uniform(1.0); if (cmp>trans) { return true; // absorbed } return false; // no absorption. }