#include "TMath.h"
#include "TF1.h"
Go to the source code of this file.
Functions | |
double | PetrukhinFunc (double *x, double *p) |
double PetrukhinFunc | ( | double * | x, |
double * | p | ||
) |
Definition at line 22 of file PetrukhinModel.cc.
References funct::A, alpha, delta, f, funct::pow(), and Gflash::Z.
Referenced by MuonBremsstrahlungSimulator::compute().
{ //Function independent variable double nu = x[0]; //fraction of muon's energy transferred to the photon // Parameters double E=p[0]; //Muon Energy (in GeV) double A=p[1];// Atomic weight double Z=p[2];// Atomic number /* //Function of Muom Brem using nuclear screening correction //Ref: https://pdg.lbl.gov/2008/AtomicNuclearProperties/adndt.pdf //Physical constants double B = 182.7; double ee = sqrt(2.7181) ; // sqrt(e) double ZZ= pow( Z,-1./3.); // Z^-1/3 double emass = 0.0005109990615; // electron mass (GeV/c^2) double mumass = 0.105658367;//mu mass (GeV/c^2) double re = 2.817940285e-13;// Classical electron radius (Units: cm) double alpha = 1./137.03599976; // fine structure constant double Dn = 1.54* (pow(A,0.27)); double constant = pow((2.0 * Z * emass/mumass * re ),2.0); double delta = (mumass * mumass * nu) /(2.* E * (1.- nu)); double Delta_n = TMath::Log(Dn / (1.+ delta *( Dn * ee -2.)/ mumass)); //nuclear screening correction double Phi = TMath::Log((B * mumass * ZZ / emass)/ (1.+ delta * ee * B * ZZ / emass)) - Delta_n;//phi(delta) //Diff. Cross Section for Muon Brem from a screened nuclear (Equation 16: REF: LBNL-44742) double f = alpha * constant *(4./3.-4./3.*nu + nu*nu)*Phi/nu; */ // Function for Muon Brem Xsec from G4 //Physical constants double B = 183.; double Bl= 1429.; double ee = 1.64872 ; // sqrt(e) double Z13= pow( Z,-1./3.); // Z^-1/3 double Z23= pow( Z,-2./3.); // Z^-2/3 //Original values of paper double emass = 0.0005109990615; // electron mass (GeV/c^2) double mumass = 0.105658367; // muon mass (GeV/c^2) // double re = 2.817940285e-13; // Classical electron radius (Units: cm) double alpha = 0.00729735; // 1./137.03599976; // fine structure constant double constant = 1.85736e-30; // pow( ( emass / mumass * re ) , 2.0); double Dn = 1.54*(pow(A,0.27)); double Dnl= pow(Dn,(1.-1./Z)); double delta = (mumass * mumass * nu)/(2.* E * (1.- nu)); double Phi_n = TMath::Log( B * Z13 *( mumass + delta * ( Dnl * ee -2 )) / ( Dnl * ( emass + delta * ee * B * Z13 ) ) ); double Phi_e = TMath::Log( ( Bl * Z23 * mumass ) / ( 1.+ delta * mumass / ( emass*emass * ee ) ) / ( emass + delta *ee * Bl * Z23 ) ); //Diff. Cross Section for Muon Brem from G4 ( without NA/A factor ) double f = 16./3. * alpha * constant* Z * ( Z * Phi_n + Phi_e ) * (1./nu) * (1. - nu + 0.75*nu*nu) ; return f; }