G4ParticleHPD2AInelasticFS.cc

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//
// particle_hp -- source file
// J.P. Wellisch, Nov-1996
// A prototype of the low energy neutron transport model.
//
// P. Arce, June-2014 Conversion neutron_hp to particle_hp
//
#include "G4ParticleHPD2AInelasticFS.hh"
 
#include "G4Alpha.hh"
#include "G4Deuteron.hh"
#include "G4Nucleus.hh"
#include "G4PhysicsModelCatalog.hh"
 
G4ParticleHPD2AInelasticFS::G4ParticleHPD2AInelasticFS()
{
  secID = G4PhysicsModelCatalog::GetModelID("model_G4ParticleHPD2AInelasticFS_F32");
}
 
G4HadFinalState* G4ParticleHPD2AInelasticFS::ApplyYourself(const G4HadProjectile& theTrack)
{
  // these are the particle types in the final state
 
  G4ParticleDefinition* theDefs[3];
  theDefs[0] = G4Deuteron::Deuteron();
  theDefs[1] = G4Alpha::Alpha();
  theDefs[2] = G4Alpha::Alpha();
 
  // fill the final state
  G4ParticleHPInelasticBaseFS::BaseApply(theTrack, theDefs, 3);
 
  // return the result
  return theResult.Get();
}
 
void G4ParticleHPD2AInelasticFS::Init(G4double A, G4double Z, G4int M, G4String& dirName,
                                      G4String& aFSType, G4ParticleDefinition* projectile)
{
  G4ParticleHPInelasticBaseFS::Init(A, Z, M, dirName, aFSType, projectile);
  G4double ResidualA = 0;
  G4double ResidualZ = 0;
  if (projectile == G4Neutron::Neutron()) {
    ResidualA = A - 9;
    ResidualZ = Z - 5;
  }
  else if (projectile == G4Proton::Proton()) {
    ResidualA = A - 9;
    ResidualZ = Z - 4;
  }
  else if (projectile == G4Deuteron::Deuteron()) {
    ResidualA = A - 8;
    ResidualZ = Z - 4;
  }
  else if (projectile == G4Triton::Triton()) {
    ResidualA = A - 7;
    ResidualZ = Z - 4;
  }
  else if (projectile == G4He3::He3()) {
    ResidualA = A - 7;
    ResidualZ = Z - 3;
  }
  else if (projectile == G4Alpha::Alpha()) {
    ResidualA = A - 6;
    ResidualZ = Z - 3;
  }
 
  G4ParticleHPInelasticBaseFS::InitGammas(ResidualA, ResidualZ);
}