//-------------------------------------------------------------------------- // File and Version Information: // $Id: blackbody.cc,v 1.4 1999-11-29 16:59:09 ansari Exp $ // // Description: // Aim of the class: To give the energy density for a blackbody // The unity used here is W/m^2/Hz/sr // // History (add to end): // Sophie Oct, 1999 - creation // //------------------------------------------------------------------------ //--------------- // C++ Headers -- //--------------- #include "machdefs.h" #include #include #include "blackbody.h" //---------------- // Constructor -- //---------------- BlackBody::BlackBody(double temperature) : RadSpectra(10., 10000.) { _temperature = temperature; } BlackBody::~BlackBody() { } double BlackBody::flux(double nu) const { if(nu < -1.e99) nu = -1.e99; if(nu > 1.e99) nu = 1.e99; double temperature = getTemperature(); if(nu==0.) return 0.; double hpl = ConvTools::hpl; double cel = ConvTools::cel; double kb = ConvTools::kb; double puiss1 = nu*pow(10,9); if(puiss1 > 1.e99) puiss1=1.e99; if(puiss1 < -1.e99) puiss1=-1.e99; double puiss2 = hpl*nu*pow(10,9)/(kb*temperature); if(puiss2 > 1.e99) puiss2=1.e99; if(puiss2 < -1.e99) puiss2=-1.e99; double result= (2*hpl* pow( puiss1 ,3))/( pow(cel,2)*(exp(puiss2)-1)); return result; } void BlackBody::Print(ostream& os) const { os << "BlackBody::Print Temp= " << getTemperature() << " - Fmin,Fmax= " << minFreq() << "," << maxFreq() << endl; os << "MeanFreq= " << meanFreq() << " Emission= " << flux(meanFreq()) << endl; os << "PeakFreq= " << peakFreq() << " Emission= " << flux(peakFreq()) << endl; } /* void BlackBody::WriteSelf(POutPersist& s) { s.PutR8(this->getTemperature()); s.PutR8(this->minFreq()); s.PutR8(this->maxFreq()); } void BlackBody::ReadSelf(PInPersist& s) { s.GetR8(_temperature); s.GetR8(_numin); s.GetR8(_numax); cout << " Temperature - minFreq - maxFreq " << endl; cout << _temperature << "-" << _numin << "-" << _numax << endl; } */