G4NeutronLENDBuilder.cc

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#include "G4NeutronLENDBuilder.hh"
#include "G4SystemOfUnits.hh"
#include "G4ParticleDefinition.hh"
#include "G4ParticleTable.hh"
#include "G4ProcessManager.hh"
 
G4NeutronLENDBuilder::
G4NeutronLENDBuilder(const G4String& eva ) 
{
  theLENDElastic = 0;
  theLENDElasticCrossSection = 0;
  
  theLENDFission = 0;
  theLENDFissionCrossSection = 0;
  
  theLENDCapture = 0;
  theLENDCaptureCrossSection = 0;
  
  theLENDInelastic = 0;
  theLENDInelasticCrossSection = 0;
 
  theMin = 0;
  theIMin = theMin;
  theMax = 20*MeV;
  theIMax = theMax;
  evaluation = eva;
 
}
void G4NeutronLENDBuilder::
Build(G4HadronElasticProcess * aP)
{
  if(theLENDElastic==0) theLENDElastic = new G4LENDElastic( G4Neutron::Neutron() );
  theLENDElastic->SetMinEnergy(theMin);
  theLENDElastic->SetMaxEnergy(theMax);
 
  if ( evaluation != "" ) theLENDElastic->ChangeDefaultEvaluation( evaluation );
  theLENDElastic->AllowNaturalAbundanceTarget();
  //theLENDElastic->AllowAnyCandidateTarget();
  if(theLENDElasticCrossSection == 0) theLENDElasticCrossSection = new G4LENDElasticCrossSection( G4Neutron::Neutron() );
  if ( evaluation != "" ) theLENDElasticCrossSection->ChangeDefaultEvaluation( evaluation );
  theLENDElasticCrossSection->AllowNaturalAbundanceTarget();
  //theLENDElasticCrossSection->AllowAnyCandidateTarget();
  aP->AddDataSet(theLENDElasticCrossSection);
  aP->RegisterMe(theLENDElastic);
}
 
void G4NeutronLENDBuilder::
Build(G4NeutronFissionProcess * aP)
{
  if(theLENDFission == 0) theLENDFission = new G4LENDFission( G4Neutron::Neutron() );
  theLENDFission->SetMinEnergy(theMin);
  theLENDFission->SetMaxEnergy(theMax);
  if ( evaluation != "" ) theLENDFission->ChangeDefaultEvaluation( evaluation );
  //theLENDFission->AllowNaturalAbundanceTarget();
  //theLENDFission->AllowAnyCandidateTarget();
  if(theLENDFissionCrossSection==0) theLENDFissionCrossSection=new G4LENDFissionCrossSection( G4Neutron::Neutron() );
  if ( evaluation != "" ) theLENDFissionCrossSection->ChangeDefaultEvaluation( evaluation );
  //theLENDFissionCrossSection->AllowNaturalAbundanceTarget();
  //theLENDFissionCrossSection->AllowAnyCandidateTarget();
  aP->AddDataSet(theLENDFissionCrossSection);
  aP->RegisterMe(theLENDFission);
}
 
void G4NeutronLENDBuilder::
Build(G4NeutronCaptureProcess * aP)
{
  if(theLENDCapture==0) theLENDCapture = new G4LENDCapture( G4Neutron::Neutron() );
  theLENDCapture->SetMinEnergy(theMin);
  theLENDCapture->SetMaxEnergy(theMax);
  if ( evaluation != "" ) theLENDCapture->ChangeDefaultEvaluation( evaluation );
  theLENDCapture->AllowNaturalAbundanceTarget();
  //theLENDCapture->AllowAnyCandidateTarget();
  if(theLENDCaptureCrossSection==0) theLENDCaptureCrossSection = new G4LENDCaptureCrossSection( G4Neutron::Neutron() );
  if ( evaluation != "" ) theLENDCaptureCrossSection->ChangeDefaultEvaluation( evaluation );
  theLENDCaptureCrossSection->AllowNaturalAbundanceTarget();
  //theLENDCaptureCrossSection->AllowAnyCandidateTarget();
  aP->AddDataSet(theLENDCaptureCrossSection);
  aP->RegisterMe(theLENDCapture);
}
 
void G4NeutronLENDBuilder::
Build(G4HadronInelasticProcess * aP)
{
  if(theLENDInelastic==0) theLENDInelastic = new G4LENDInelastic( G4Neutron::Neutron() );
  theLENDInelastic->SetMinEnergy(theIMin);
  theLENDInelastic->SetMaxEnergy(theIMax);
  if ( evaluation != "" ) theLENDInelastic->ChangeDefaultEvaluation( evaluation );
  theLENDInelastic->AllowNaturalAbundanceTarget();
  //theLENDInelastic->AllowAnyCandidateTarget();
  if(theLENDInelasticCrossSection==0) theLENDInelasticCrossSection = new G4LENDInelasticCrossSection( G4Neutron::Neutron() );
  if ( evaluation != "" ) theLENDInelasticCrossSection->ChangeDefaultEvaluation( evaluation );
  theLENDInelasticCrossSection->AllowNaturalAbundanceTarget();
  //theLENDInelasticCrossSection->AllowAnyCandidateTarget();
  aP->AddDataSet(theLENDInelasticCrossSection);
  aP->RegisterMe(theLENDInelastic);
}