9.6.p02/html/_g4h_nuclear_stopping_model_8cc_source.html

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// -------------------------------------------------------------------

//

// GEANT4 Class file

//

//

// File name:     G4hNuclearStoppingModel

//

// Author:        V.Ivanchenko (Vladimir.Ivanchenko@cern.ch)

//

// Creation date: 20 July 2000

//

// Modifications:

// 20/07/2000  V.Ivanchenko First implementation

// 22/08/2000  V.Ivanchenko Bug fixed in call of a model

// 03/10/2000  V.Ivanchenko CodeWizard clean up

//

// Class Description:

//

// Low energy protons/ions nuclear stopping parametrisation

//

// Class Description: End

//

// -------------------------------------------------------------------

//

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#include "G4hNuclearStoppingModel.hh"


#include "globals.hh"

#include "G4PhysicalConstants.hh"

#include "G4SystemOfUnits.hh"

#include "G4UnitsTable.hh"

#include "G4hZiegler1977Nuclear.hh"

#include "G4hZiegler1985Nuclear.hh"

#include "G4hICRU49Nuclear.hh"

#include "G4DynamicParticle.hh"

#include "G4ParticleDefinition.hh"

#include "G4ElementVector.hh"

#include "G4Material.hh"


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G4hNuclearStoppingModel::G4hNuclearStoppingModel(const G4String& name)

  :G4VLowEnergyModel(name), modelName(name)

{

  InitializeMe() ;

}


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void G4hNuclearStoppingModel::InitializeMe()

{

  // Constants

  highEnergyLimit = 100.*MeV ;

  lowEnergyLimit  = 1.*eV ;

  factorPDG2AMU   = 1.007276/proton_mass_c2 ;

  theZieglerFactor= eV*cm2*1.0e-15 ;


  // Registration of parametrisation models of nuclear energy losses

  G4String blank  = G4String(" ") ;

  G4String zi77   = G4String("Ziegler1977") ;

  G4String ir49   = G4String("ICRU_R49") ;

  G4String zi85   = G4String("Ziegler1985") ;

  if(zi77 == modelName) {

      nStopingPowerTable = new G4hZiegler1977Nuclear();


  } else if(ir49 == modelName || blank == modelName) {

      nStopingPowerTable = new G4hICRU49Nuclear();


  } else if(zi85 == modelName) {

      nStopingPowerTable = new G4hZiegler1985Nuclear();


  } else {

    G4cout <<

    "G4hLowEnergyIonisation warning: There is no table with the modelName <"

 << modelName << ">"

 << " for nuclear stopping, <ICRU_R49> is applied "

 << G4endl;

    nStopingPowerTable = new G4hICRU49Nuclear();

  }


  // Default is nuclear stopping fluctuations On

  //  nStopingPowerTable->SetNuclearStoppingFluctuationsOn();

  nStopingPowerTable->SetNuclearStoppingFluctuationsOff();

}


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G4hNuclearStoppingModel::~G4hNuclearStoppingModel()

{

  delete nStopingPowerTable;

}


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G4double G4hNuclearStoppingModel::TheValue(

                          const G4DynamicParticle* particle,

                      const G4Material* material)

{

  // Projectile nucleus

  G4double energy = particle->GetKineticEnergy() ;

  G4double z1 = std::abs((particle->GetCharge())/eplus) ;

  G4double m1 = (particle->GetMass())*factorPDG2AMU ;


  G4double nloss = StoppingPower(material, energy, z1, m1) * theZieglerFactor;


  return nloss;

}


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G4double G4hNuclearStoppingModel::TheValue(

                          const G4ParticleDefinition* aParticle,

                  const G4Material* material,

                                G4double kineticEnergy)

{

  // Projectile nucleus

  G4double z1 = std::abs((aParticle->GetPDGCharge())/eplus) ;

  G4double m1 = (aParticle->GetPDGMass())*factorPDG2AMU ;


  G4double nloss = StoppingPower(material, kineticEnergy, z1, m1)

                 * theZieglerFactor;


  return nloss;

}


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G4double G4hNuclearStoppingModel::StoppingPower(

                          const G4Material* material,

                                G4double kineticEnergy,

                                G4double z1, G4double m1) const

{

  // Target nucleus

  G4int NumberOfElements = material->GetNumberOfElements() ;

  if(0 == NumberOfElements) return 0.0 ;


  const G4ElementVector* theElementVector =

                                 material->GetElementVector() ;

  const G4double* theAtomicNumDensityVector =

                                 material->GetAtomicNumDensityVector() ;


  //  loop for the elements in the material


  G4double nloss = 0.0;


  for (G4int iel=0; iel<NumberOfElements; iel++) {

    const G4Element* element = (*theElementVector)[iel] ;

    G4double z2 = element->GetZ();

    G4double m2Local = element->GetA()*mole/g ;

    nloss += (nStopingPowerTable->

              NuclearStoppingPower(kineticEnergy, z1, z2, m1, m2Local))

           * theAtomicNumDensityVector[iel] ;

  }


  return nloss;

}


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