G4HETCNeutron.cc

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//
// by V. Lara
//
// Modified:
// 23.08.2010 V.Ivanchenko general cleanup, move constructor and destructor 
//            the source, use G4Pow
 
#include "G4HETCNeutron.hh"
#include "G4PhysicalConstants.hh"
#include "G4SystemOfUnits.hh"
#include "G4Neutron.hh"
#include "G4NuclearLevelData.hh"
 
G4HETCNeutron::G4HETCNeutron() 
  : G4HETCFragment(G4Neutron::Neutron())
{}
G4HETCNeutron::G4HETCNeutron()  {…}
 
G4double G4HETCNeutron::GetAlpha() const
{
  return 0.76+2.2/theResA13;
}
G4double G4HETCNeutron::GetAlpha() const {…}
  
G4double G4HETCNeutron::GetBeta() const
{
  return (2.12/(theResA13*theResA13)-0.05)/GetAlpha(); // in MeV
}
G4double G4HETCNeutron::GetBeta() const {…}
 
G4double G4HETCNeutron::GetSpinFactor() const
{
  // (2s+1)
  return 2.0;
}
G4double G4HETCNeutron::GetSpinFactor() const {…}
  
G4double G4HETCNeutron::K(const G4Fragment& aFragment) const
{
  // Number of protons in emitted fragment
  G4int Pa = theZ;
  // Number of neutrons in emitted fragment 
  G4int Na = theA - Pa;
 
  G4double r = G4double(theResZ)/G4double(theResA);
  
  G4int P = aFragment.GetNumberOfParticles();
  G4int H = aFragment.GetNumberOfHoles();
  
  G4double result = (P > 0) ? (H + Na/(1.0 - r))/P : 0.0;
  return result;
}
G4double G4HETCNeutron::K(const G4Fragment& aFragment) const {…}
 
G4double G4HETCNeutron::SampleKineticEnergy(const G4Fragment& frag)
{
  G4int H = frag.GetNumberOfHoles();
  G4int Pb = frag.GetNumberOfParticles();
  G4int Nb = Pb + H;
  G4double U = frag.GetExcitationEnergy();
  G4double g0 = 
    (6.0/CLHEP::pi2)*fNucData->GetLevelDensity(theFragZ,theFragA,U);
  
  G4double Ab = std::max(0.0, (G4double)(Pb*Pb+H*H+Pb-3*H)/(4.0*g0));
  G4double Emax = theMaxKinEnergy - Ab;
  
  G4double cut = GetBeta() / (GetBeta()+Emax/G4double(Nb+1));
  G4double x = (G4UniformRand() <= cut) ? BetaRand(Nb,1) : BetaRand(Nb,2);
 
  return Emax * (1.0 - x);
}
G4double G4HETCNeutron::SampleKineticEnergy(const G4Fragment& frag) {…}