G4LivermoreBremsstrahlungModel Class Reference

#include <G4LivermoreBremsstrahlungModel.hh>

Inheritance diagram for G4LivermoreBremsstrahlungModel:

Collaboration diagram for G4LivermoreBremsstrahlungModel:

Public Member Functions
	G4LivermoreBremsstrahlungModel (const G4ParticleDefinition *p=0, const G4String &nam="LowEnBrem")
virtual	~G4LivermoreBremsstrahlungModel ()
virtual void	Initialise (const G4ParticleDefinition *, const G4DataVector &)
virtual void	InitialiseForElement (const G4ParticleDefinition *, G4int Z)
virtual void	SampleSecondaries (std::vector< G4DynamicParticle * > *, const G4MaterialCutsCouple *, const G4DynamicParticle *, G4double cutEnergy, G4double maxEnergy)
void	SetBicubicInterpolationFlag (G4bool)
Public Member Functions inherited from G4eBremsstrahlungRelModel
	G4eBremsstrahlungRelModel (const G4ParticleDefinition *p=0, const G4String &nam="eBremLPM")
virtual	~G4eBremsstrahlungRelModel ()
virtual void	InitialiseLocal (const G4ParticleDefinition *, G4VEmModel *masterModel) override
virtual G4double	ComputeDEDXPerVolume (const G4Material *, const G4ParticleDefinition *, G4double kineticEnergy, G4double cutEnergy) override
virtual G4double	ComputeCrossSectionPerAtom (const G4ParticleDefinition *, G4double tkin, G4double Z, G4double, G4double cutEnergy, G4double maxEnergy=DBL_MAX) override
virtual void	SetupForMaterial (const G4ParticleDefinition *, const G4Material *, G4double) override
virtual G4double	MinPrimaryEnergy (const G4Material *, const G4ParticleDefinition *, G4double cut) override
void	SetLPMconstant (G4double val)
G4double	LPMconstant () const
void	SetLowestKinEnergy (G4double)
G4double	LowestKinEnergy () const
Public Member Functions inherited from G4VEmModel
	G4VEmModel (const G4String &nam)
virtual	~G4VEmModel ()
virtual void	InitialiseForMaterial (const G4ParticleDefinition *, const G4Material *)
virtual G4double	CrossSectionPerVolume (const G4Material *, const G4ParticleDefinition *, G4double kineticEnergy, G4double cutEnergy=0.0, G4double maxEnergy=DBL_MAX)
virtual G4double	GetPartialCrossSection (const G4Material *, G4int level, const G4ParticleDefinition *, G4double kineticEnergy)
virtual G4double	ComputeCrossSectionPerShell (const G4ParticleDefinition *, G4int Z, G4int shellIdx, G4double kinEnergy, G4double cutEnergy=0.0, G4double maxEnergy=DBL_MAX)
virtual G4double	ChargeSquareRatio (const G4Track &)
virtual G4double	GetChargeSquareRatio (const G4ParticleDefinition *, const G4Material *, G4double kineticEnergy)
virtual G4double	GetParticleCharge (const G4ParticleDefinition *, const G4Material *, G4double kineticEnergy)
virtual void	StartTracking (G4Track *)
virtual void	CorrectionsAlongStep (const G4MaterialCutsCouple *, const G4DynamicParticle *, G4double &eloss, G4double &niel, G4double length)
virtual G4double	Value (const G4MaterialCutsCouple *, const G4ParticleDefinition *, G4double kineticEnergy)
virtual G4double	MinEnergyCut (const G4ParticleDefinition *, const G4MaterialCutsCouple *)
virtual void	DefineForRegion (const G4Region *)
virtual void	ModelDescription (std::ostream &outFile) const
void	InitialiseElementSelectors (const G4ParticleDefinition *, const G4DataVector &)
std::vector < G4EmElementSelector * > *	GetElementSelectors ()
void	SetElementSelectors (std::vector< G4EmElementSelector * > *)
virtual G4double	ComputeDEDX (const G4MaterialCutsCouple *, const G4ParticleDefinition *, G4double kineticEnergy, G4double cutEnergy=DBL_MAX)
G4double	CrossSection (const G4MaterialCutsCouple *, const G4ParticleDefinition *, G4double kineticEnergy, G4double cutEnergy=0.0, G4double maxEnergy=DBL_MAX)
G4double	ComputeMeanFreePath (const G4ParticleDefinition *, G4double kineticEnergy, const G4Material *, G4double cutEnergy=0.0, G4double maxEnergy=DBL_MAX)
G4double	ComputeCrossSectionPerAtom (const G4ParticleDefinition *, const G4Element *, G4double kinEnergy, G4double cutEnergy=0.0, G4double maxEnergy=DBL_MAX)
G4int	SelectIsotopeNumber (const G4Element *)
const G4Element *	SelectRandomAtom (const G4MaterialCutsCouple *, const G4ParticleDefinition *, G4double kineticEnergy, G4double cutEnergy=0.0, G4double maxEnergy=DBL_MAX)
const G4Element *	SelectRandomAtom (const G4Material *, const G4ParticleDefinition *, G4double kineticEnergy, G4double cutEnergy=0.0, G4double maxEnergy=DBL_MAX)
G4int	SelectRandomAtomNumber (const G4Material *)
void	SetParticleChange (G4VParticleChange *, G4VEmFluctuationModel *f=nullptr)
void	SetCrossSectionTable (G4PhysicsTable *, G4bool isLocal)
G4ElementData *	GetElementData ()
G4PhysicsTable *	GetCrossSectionTable ()
G4VEmFluctuationModel *	GetModelOfFluctuations ()
G4VEmAngularDistribution *	GetAngularDistribution ()
void	SetAngularDistribution (G4VEmAngularDistribution *)
G4double	HighEnergyLimit () const
G4double	LowEnergyLimit () const
G4double	HighEnergyActivationLimit () const
G4double	LowEnergyActivationLimit () const
G4double	PolarAngleLimit () const
G4double	SecondaryThreshold () const
G4bool	LPMFlag () const
G4bool	DeexcitationFlag () const
G4bool	ForceBuildTableFlag () const
G4bool	UseAngularGeneratorFlag () const
void	SetAngularGeneratorFlag (G4bool)
void	SetHighEnergyLimit (G4double)
void	SetLowEnergyLimit (G4double)
void	SetActivationHighEnergyLimit (G4double)
void	SetActivationLowEnergyLimit (G4double)
G4bool	IsActive (G4double kinEnergy)
void	SetPolarAngleLimit (G4double)
void	SetSecondaryThreshold (G4double)
void	SetLPMFlag (G4bool val)
void	SetDeexcitationFlag (G4bool val)
void	SetForceBuildTable (G4bool val)
void	SetFluctuationFlag (G4bool val)
void	SetMasterThread (G4bool val)
G4bool	IsMaster () const
G4double	MaxSecondaryKinEnergy (const G4DynamicParticle *dynParticle)
const G4String &	GetName () const
void	SetCurrentCouple (const G4MaterialCutsCouple *)
const G4Element *	GetCurrentElement () const
const G4Isotope *	GetCurrentIsotope () const
G4bool	IsLocked () const
void	SetLocked (G4bool)

Protected Member Functions
virtual G4double	ComputeDXSectionPerAtom (G4double gammaEnergy)
virtual G4String	DirectoryPath () const
Protected Member Functions inherited from G4eBremsstrahlungRelModel
void	SetCurrentElement (G4int)
Protected Member Functions inherited from G4VEmModel
G4ParticleChangeForLoss *	GetParticleChangeForLoss ()
G4ParticleChangeForGamma *	GetParticleChangeForGamma ()
virtual G4double	MaxSecondaryEnergy (const G4ParticleDefinition *, G4double kineticEnergy)
const G4MaterialCutsCouple *	CurrentCouple () const
void	SetCurrentElement (const G4Element *)

Additional Inherited Members
Protected Attributes inherited from G4eBremsstrahlungRelModel
G4NistManager *	nist
const G4ParticleDefinition *	particle
G4ParticleDefinition *	theGamma
G4ParticleChangeForLoss *	fParticleChange
G4double	bremFactor
G4double	particleMass
G4double	kinEnergy
G4double	totalEnergy
G4double	densityFactor
G4double	densityCorr
G4int	currentZ
G4bool	isElectron
Protected Attributes inherited from G4VEmModel
G4ElementData *	fElementData
G4VParticleChange *	pParticleChange
G4PhysicsTable *	xSectionTable
const std::vector< G4double > *	theDensityFactor
const std::vector< G4int > *	theDensityIdx
size_t	idxTable
G4bool	lossFlucFlag
Static Protected Attributes inherited from G4VEmModel
static const G4double	inveplus = 1.0/CLHEP::eplus

Detailed Description

Definition at line 61 of file G4LivermoreBremsstrahlungModel.hh.

Constructor & Destructor Documentation

G4LivermoreBremsstrahlungModel::G4LivermoreBremsstrahlungModel	(	const G4ParticleDefinition *	p = 0,
		const G4String &	nam = "LowEnBrem"
	)

Definition at line 83 of file G4LivermoreBremsstrahlungModel.cc.

  : G4eBremsstrahlungRelModel(p,nam),useBicubicInterpolation(false)
{
  SetLowEnergyLimit(10.0*eV);
  SetLPMFlag(false);
  nwarn = 0;
  idx = idy = 0;
  SetAngularDistribution(new G4Generator2BS());
}

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G4LivermoreBremsstrahlungModel::~G4LivermoreBremsstrahlungModel ( )

virtual

Definition at line 96 of file G4LivermoreBremsstrahlungModel.cc.

{
  if(IsMaster()) {
    for(size_t i=0; i<101; ++i) { 
      if(dataSB[i]) {
    delete dataSB[i]; 
    dataSB[i] = 0;
      } 
    }
  }
}

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Member Function Documentation

G4double G4LivermoreBremsstrahlungModel::ComputeDXSectionPerAtom ( G4double  gammaEnergy )

protectedvirtual

Reimplemented from G4eBremsstrahlungRelModel.

Definition at line 196 of file G4LivermoreBremsstrahlungModel.cc.

{

  if(gammaEnergy < 0.0 || kinEnergy <= 0.0) { return 0.0; }
  G4double x = gammaEnergy/kinEnergy;
  G4double y = G4Log(kinEnergy/MeV);
  G4int Z = G4lrint(currentZ);

  //G4cout << "G4LivermoreBremsstrahlungModel::ComputeDXSectionPerAtom Z= " << Z
  //     << " x= " << x << " y= " << y << " " << dataSB[Z] << G4endl;
  if(!dataSB[Z]) { InitialiseForElement(0, Z); }
  /*
    G4ExceptionDescription ed;
    ed << "Bremsstrahlung data for Z= " << Z
       << " are not initialized!";
    G4Exception("G4LivermoreBremsstrahlungModel::ComputeDXSectionPerAtom()",
                "em0005", FatalException, ed,
        "G4LEDATA version should be G4EMLOW6.23 or later.");
  }
  */
  G4double invb2 = 
    totalEnergy*totalEnergy/(kinEnergy*(kinEnergy + 2*particleMass));
  G4double cross = dataSB[Z]->Value(x,y,idx,idy)*invb2*millibarn/bremFactor;
  
  if(!isElectron) {
    G4double invbeta1 = sqrt(invb2);
    G4double e2 = kinEnergy - gammaEnergy;
    if(e2 > 0.0) {
      G4double invbeta2 = (e2 + particleMass)/sqrt(e2*(e2 + 2*particleMass));
      G4double xxx = alpha*currentZ*(invbeta1 - invbeta2);
      if(xxx < expnumlim) { cross = 0.0; }
      else { cross *= G4Exp(xxx); }
    } else {
      cross = 0.0;
    }
  }
  
  return cross;
}

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G4String G4LivermoreBremsstrahlungModel::DirectoryPath ( ) const

protectedvirtual

Definition at line 139 of file G4LivermoreBremsstrahlungModel.cc.

{
  return "/livermore/brem/br";
}

void G4LivermoreBremsstrahlungModel::Initialise ( const G4ParticleDefinition *  p, const G4DataVector &  cuts  )

virtual

Reimplemented from G4eBremsstrahlungRelModel.

Definition at line 110 of file G4LivermoreBremsstrahlungModel.cc.

{
  // Access to elements
  if(IsMaster()) {

    // check environment variable
    // Build the complete string identifying the file with the data set
    char* path = getenv("G4LEDATA");

    const G4ElementTable* theElmTable = G4Element::GetElementTable();
    size_t numOfElm = G4Element::GetNumberOfElements();
    if(numOfElm > 0) {
      for(size_t i=0; i<numOfElm; ++i) {
    G4int Z = G4int(((*theElmTable)[i])->GetZ());
    if(Z < 1)        { Z = 1; }
    else if(Z > 100) { Z = 100; }
    //G4cout << "Z= " << Z << G4endl;
    // Initialisation
    if(!dataSB[Z]) { ReadData(Z, path); }
      }
    }
  }

  G4eBremsstrahlungRelModel::Initialise(p, cuts);
}

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void G4LivermoreBremsstrahlungModel::InitialiseForElement ( const G4ParticleDefinition *  , G4int  Z  )

virtual

Reimplemented from G4VEmModel.

Definition at line 374 of file G4LivermoreBremsstrahlungModel.cc.

{
  G4AutoLock l(&LivermoreBremsstrahlungModelMutex);
  //G4cout << "G4LivermoreBremsstrahlungModel::InitialiseForElement Z= " 
  //<< Z << G4endl;
  if(!dataSB[Z]) { ReadData(Z); }
  l.unlock();
}

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void G4LivermoreBremsstrahlungModel::SampleSecondaries ( std::vector< G4DynamicParticle * > *  vdp, const G4MaterialCutsCouple *  couple, const G4DynamicParticle *  dp, G4double  cutEnergy, G4double  maxEnergy  )

virtual

Reimplemented from G4eBremsstrahlungRelModel.

Definition at line 239 of file G4LivermoreBremsstrahlungModel.cc.

{
  G4double kineticEnergy = dp->GetKineticEnergy();
  G4double cut  = std::min(cutEnergy, kineticEnergy);
  G4double emax = std::min(maxEnergy, kineticEnergy);
  if(cut >= emax) { return; }

  SetupForMaterial(particle, couple->GetMaterial(), kineticEnergy);

  const G4Element* elm = 
    SelectRandomAtom(couple,particle,kineticEnergy,cut,emax);
  SetCurrentElement(elm->GetZ());
  G4int Z = G4int(currentZ);

  totalEnergy = kineticEnergy + particleMass;
  densityCorr = densityFactor*totalEnergy*totalEnergy;
  G4double totMomentum = sqrt(kineticEnergy*(totalEnergy + electron_mass_c2));
  /*
  G4cout << "G4LivermoreBremsstrahlungModel::SampleSecondaries E(MeV)= " 
     << kineticEnergy/MeV
     << " Z= " << Z << " cut(MeV)= " << cut/MeV 
     << " emax(MeV)= " << emax/MeV << " corr= " << densityCorr << G4endl;
  */
  G4double xmin = G4Log(cut*cut + densityCorr);
  G4double xmax = G4Log(emax*emax  + densityCorr);
  G4double y = G4Log(kineticEnergy/MeV);

  G4double gammaEnergy, v; 

  // majoranta
  G4double x0 = cut/kineticEnergy;
  G4double vmax = dataSB[Z]->Value(x0, y, idx, idy)*1.02;
  //  G4double invbeta1 = 0;

  // majoranta corrected for e-
  if(isElectron && x0 < 0.97 && 
     ((kineticEnergy > epeaklimit) || (kineticEnergy < elowlimit))) {
    G4double ylim = std::min(ylimit[Z],1.1*dataSB[Z]->Value(0.97,y,idx,idy));
    if(ylim > vmax) { vmax = ylim; }
  }
  if(x0 < 0.05) { vmax *= 1.2; }

  //G4cout<<"y= "<<y<<" xmin= "<<xmin<<" xmax= "<<xmax
  //<<" vmax= "<<vmax<<G4endl;
  //  G4int ncount = 0;
  do {
    //++ncount;
    G4double x = G4Exp(xmin + G4UniformRand()*(xmax - xmin)) - densityCorr;
    if(x < 0.0) { x = 0.0; }
    gammaEnergy = sqrt(x);
    G4double x1 = gammaEnergy/kineticEnergy;
    v = dataSB[Z]->Value(x1, y, idx, idy);

    // correction for positrons        
    if(!isElectron) {
      G4double e1 = kineticEnergy - cut;
      G4double invbeta1 = (e1 + particleMass)/sqrt(e1*(e1 + 2*particleMass));
      G4double e2 = kineticEnergy - gammaEnergy;
      G4double invbeta2 = (e2 + particleMass)/sqrt(e2*(e2 + 2*particleMass));
      G4double xxx = twopi*fine_structure_const*currentZ*(invbeta1 - invbeta2);

      if(xxx < expnumlim) { v = 0.0; }
      else { v *= G4Exp(xxx); }
    }
   
    if (v > 1.05*vmax && nwarn < 5) {
      ++nwarn;
      G4ExceptionDescription ed;
      ed << "### G4LivermoreBremsstrahlungModel Warning: Majoranta exceeded! "
     << v << " > " << vmax << " by " << v/vmax
     << " Egamma(MeV)= " << gammaEnergy
     << " Ee(MeV)= " << kineticEnergy
     << " Z= " << Z << "  " << particle->GetParticleName();
     
      if ( 20 == nwarn ) {
    ed << "\n ### G4LivermoreBremsstrahlungModel Warnings stopped";
      }
      G4Exception("G4LivermoreBremsstrahlungModel::SampleScattering","em0044",
          JustWarning, ed,"");

    }
  } while (v < vmax*G4UniformRand());

  //
  // angles of the emitted gamma. ( Z - axis along the parent particle)
  // use general interface
  //

  G4ThreeVector gammaDirection = 
    GetAngularDistribution()->SampleDirection(dp, totalEnergy-gammaEnergy,
                          Z, couple->GetMaterial());

  // create G4DynamicParticle object for the Gamma
  G4DynamicParticle* gamma = 
    new G4DynamicParticle(theGamma,gammaDirection,gammaEnergy);
  vdp->push_back(gamma);
  
  G4ThreeVector direction = (totMomentum*dp->GetMomentumDirection()
                 - gammaEnergy*gammaDirection).unit();

  /*
  G4cout << "### G4SBModel: v= "
     << " Eg(MeV)= " << gammaEnergy
     << " Ee(MeV)= " << kineticEnergy
     << " DirE " << direction << " DirG " << gammaDirection
     << G4endl;
  */
  // energy of primary
  G4double finalE = kineticEnergy - gammaEnergy;

  // stop tracking and create new secondary instead of primary
  if(gammaEnergy > SecondaryThreshold()) {
    fParticleChange->ProposeTrackStatus(fStopAndKill);
    fParticleChange->SetProposedKineticEnergy(0.0);
    G4DynamicParticle* el = 
      new G4DynamicParticle(const_cast<G4ParticleDefinition*>(particle),
                direction, finalE);
    vdp->push_back(el);

    // continue tracking
  } else {
    fParticleChange->SetProposedMomentumDirection(direction);
    fParticleChange->SetProposedKineticEnergy(finalE);
  }
}

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void G4LivermoreBremsstrahlungModel::SetBicubicInterpolationFlag ( G4bool  val )

inline

Definition at line 106 of file G4LivermoreBremsstrahlungModel.hh.

{
  useBicubicInterpolation = val;
}

---

The documentation for this class was generated from the following files:

• source/geant4.10.03.p02/source/processes/electromagnetic/lowenergy/include/G4LivermoreBremsstrahlungModel.hh
• source/geant4.10.03.p02/source/processes/electromagnetic/lowenergy/src/G4LivermoreBremsstrahlungModel.cc