G4SigmaMinusField.cc

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//
// -------------------------------------------------------------------
//      GEANT 4 class implementation file 
//
//      CERN, Geneva, Switzerland
//
//      File name:     G4SigmaMinusField.cc
//
//      Author:        Alessandro Brunengo ([email protected])
// 
//      Creation date: 5 June 2000
// -------------------------------------------------------------------
 
#include "G4SigmaMinusField.hh"
#include "G4PhysicalConstants.hh"
#include "G4SystemOfUnits.hh"
#include "G4NucleiProperties.hh"
#include "G4VNuclearDensity.hh"
#include "G4FermiMomentum.hh"
#include "G4SigmaMinus.hh"
#include "G4HadTmpUtil.hh"
 
G4SigmaMinusField::G4SigmaMinusField(G4V3DNucleus * nucleus, G4double coeff)
  : G4VNuclearField(nucleus)
{
  theCoeff = coeff;
}
 
G4SigmaMinusField::~G4SigmaMinusField()
{ }
 
G4double G4SigmaMinusField::GetField(const G4ThreeVector & aPosition)
{
// Field is 0 out of the nucleus!
  if(aPosition.mag() >= radius) return 0.0;
 
  G4double sigmaMinusMass = G4SigmaMinus::SigmaMinus()->GetPDGMass();
 
  G4int A = theNucleus->GetMassNumber();
  G4int Z = theNucleus->GetCharge();
  G4double bindingEnergy = G4NucleiProperties::GetBindingEnergy(A, Z);
  G4double nucleusMass = Z*proton_mass_c2+(A-Z)*neutron_mass_c2+bindingEnergy;
  G4double reducedMass = sigmaMinusMass*nucleusMass/(sigmaMinusMass+nucleusMass);
 
  const G4VNuclearDensity * nuclearDensity=theNucleus->GetNuclearDensity();
  G4double density = nuclearDensity->GetDensity(aPosition);
 
  return -2.*pi*hbarc*hbarc/reducedMass*(2.0)*theCoeff*density+GetBarrier();
}
 
G4double G4SigmaMinusField::GetBarrier()
{
  G4double A = theNucleus->GetMassNumber();
  G4double Z = theNucleus->GetCharge();
  G4double coulombBarrier = (1.44/1.14) * MeV * Z / (1.0 + std::pow(A,1./3.));
  return -coulombBarrier;
}