#include <G4LowEWentzelVIModel.hh>

Inheritance diagram for G4LowEWentzelVIModel:

Public Member Functions
virtual G4double	ChargeSquareRatio (const G4Track &)

G4double	ComputeCrossSectionPerAtom (const G4ParticleDefinition , const G4Element , G4double kinEnergy, G4double cutEnergy=0.0, G4double maxEnergy=DBL_MAX)

G4double	ComputeCrossSectionPerAtom (const G4ParticleDefinition *, G4double KineticEnergy, G4double AtomicNumber, G4double AtomicWeight=0., G4double cut=DBL_MAX, G4double emax=DBL_MAX) override

virtual G4double	ComputeCrossSectionPerShell (const G4ParticleDefinition *, G4int Z, G4int shellIdx, G4double kinEnergy, G4double cutEnergy=0.0, G4double maxEnergy=DBL_MAX)

G4double	ComputeDEDX (const G4MaterialCutsCouple , const G4ParticleDefinition , G4double kineticEnergy, G4double cutEnergy=DBL_MAX)

virtual G4double	ComputeDEDXPerVolume (const G4Material , const G4ParticleDefinition , G4double kineticEnergy, G4double cutEnergy=DBL_MAX)

G4double	ComputeGeomLimit (const G4Track &, G4double &presafety, G4double limit)

G4double	ComputeGeomPathLength (G4double truePathLength) override

G4double	ComputeMeanFreePath (const G4ParticleDefinition , G4double kineticEnergy, const G4Material , G4double cutEnergy=0.0, G4double maxEnergy=DBL_MAX)

G4double	ComputeSafety (const G4ThreeVector &position, G4double limit=DBL_MAX)

G4double	ComputeTruePathLengthLimit (const G4Track &track, G4double &currentMinimalStep) override

G4double	ComputeTrueStepLength (G4double geomStepLength) override

virtual void	CorrectionsAlongStep (const G4MaterialCutsCouple , const G4DynamicParticle , const G4double &length, G4double &eloss)

G4double	CrossSection (const G4MaterialCutsCouple , const G4ParticleDefinition , G4double kineticEnergy, G4double cutEnergy=0.0, G4double maxEnergy=DBL_MAX)

virtual G4double	CrossSectionPerVolume (const G4Material , const G4ParticleDefinition , G4double kineticEnergy, G4double cutEnergy=0.0, G4double maxEnergy=DBL_MAX)

G4bool	DeexcitationFlag () const

virtual void	DefineForRegion (const G4Region *)

void	DefineMaterial (const G4MaterialCutsCouple *)

void	DumpParameters (std::ostream &out) const

virtual void	FillNumberOfSecondaries (G4int &numberOfTriplets, G4int &numberOfRecoil)

G4bool	ForceBuildTableFlag () const

	G4LowEWentzelVIModel ()

	G4LowEWentzelVIModel (const G4LowEWentzelVIModel &)=delete

G4VEmAngularDistribution *	GetAngularDistribution ()

virtual G4double	GetChargeSquareRatio (const G4ParticleDefinition , const G4Material , G4double kineticEnergy)

G4PhysicsTable *	GetCrossSectionTable ()

const G4Element *	GetCurrentElement () const

const G4Isotope *	GetCurrentIsotope () const

G4double	GetDEDX (const G4ParticleDefinition part, G4double kineticEnergy, const G4MaterialCutsCouple couple)

G4double	GetDEDX (const G4ParticleDefinition part, G4double kineticEnergy, const G4MaterialCutsCouple couple, G4double logKineticEnergy)

G4ElementData *	GetElementData ()

std::vector< G4EmElementSelector * > *	GetElementSelectors ()

G4double	GetEnergy (const G4ParticleDefinition part, G4double range, const G4MaterialCutsCouple couple)

G4double	GetFixedCut () const

G4VEnergyLossProcess *	GetIonisation () const

G4VEmFluctuationModel *	GetModelOfFluctuations ()

const G4String &	GetName () const

virtual G4double	GetPartialCrossSection (const G4Material , G4int level, const G4ParticleDefinition , G4double kineticEnergy)

virtual G4double	GetParticleCharge (const G4ParticleDefinition , const G4Material , G4double kineticEnergy)

G4double	GetRange (const G4ParticleDefinition part, G4double kineticEnergy, const G4MaterialCutsCouple couple)

G4double	GetRange (const G4ParticleDefinition part, G4double kineticEnergy, const G4MaterialCutsCouple couple, G4double logKineticEnergy)

G4PhysicsTable *	GetSecondMomentTable ()

G4double	GetTransportMeanFreePath (const G4ParticleDefinition *part, G4double kinEnergy)

G4double	GetTransportMeanFreePath (const G4ParticleDefinition *part, G4double kinEnergy, G4double logKinEnergy)

G4VEmModel *	GetTripletModel ()

G4WentzelOKandVIxSection *	GetWVICrossSection ()

G4double	HighEnergyActivationLimit () const

G4double	HighEnergyLimit () const

void	Initialise (const G4ParticleDefinition *, const G4DataVector &) override

void	InitialiseElementSelectors (const G4ParticleDefinition *, const G4DataVector &)

virtual void	InitialiseForElement (const G4ParticleDefinition *, G4int Z)

virtual void	InitialiseForMaterial (const G4ParticleDefinition , const G4Material )

void	InitialiseLocal (const G4ParticleDefinition , G4VEmModel masterModel) override

void	InitialiseParameters (const G4ParticleDefinition *)

G4bool	IsActive (G4double kinEnergy) const

G4bool	IsLocked () const

G4bool	IsMaster () const

G4double	LowEnergyActivationLimit () const

G4double	LowEnergyLimit () const

G4bool	LPMFlag () const

G4double	MaxSecondaryKinEnergy (const G4DynamicParticle *dynParticle)

virtual G4double	MinEnergyCut (const G4ParticleDefinition , const G4MaterialCutsCouple )

virtual G4double	MinPrimaryEnergy (const G4Material , const G4ParticleDefinition , G4double cut=0.0)

virtual void	ModelDescription (std::ostream &outFile) const

G4LowEWentzelVIModel &	operator= (const G4LowEWentzelVIModel &right)=delete

G4double	PolarAngleLimit () const

G4ThreeVector &	SampleScattering (const G4ThreeVector &, G4double safety) override

void	SampleSecondaries (std::vector< G4DynamicParticle * > , const G4MaterialCutsCouple , const G4DynamicParticle *, G4double tmin, G4double tmax) override

G4double	SecondaryThreshold () const

G4double	SecondMoment (const G4ParticleDefinition , const G4MaterialCutsCouple , G4double kineticEnergy)

G4int	SelectIsotopeNumber (const G4Element *)

const G4Element *	SelectRandomAtom (const G4Material , const G4ParticleDefinition , G4double kineticEnergy, G4double cutEnergy=0.0, G4double maxEnergy=DBL_MAX)

const G4Element *	SelectRandomAtom (const G4MaterialCutsCouple , const G4ParticleDefinition , G4double kineticEnergy, G4double cutEnergy=0.0, G4double maxEnergy=DBL_MAX)

G4int	SelectRandomAtomNumber (const G4Material *)

const G4Element *	SelectTargetAtom (const G4MaterialCutsCouple , const G4ParticleDefinition , G4double kineticEnergy, G4double logKineticEnergy, G4double cutEnergy=0.0, G4double maxEnergy=DBL_MAX)

void	SetActivationHighEnergyLimit (G4double)

void	SetActivationLowEnergyLimit (G4double)

void	SetAngularDistribution (G4VEmAngularDistribution *)

void	SetAngularGeneratorFlag (G4bool)

void	SetCrossSectionTable (G4PhysicsTable *, G4bool isLocal)

void	SetCurrentCouple (const G4MaterialCutsCouple *)

void	SetDeexcitationFlag (G4bool val)

void	SetElementSelectors (std::vector< G4EmElementSelector * > *)

void	SetFixedCut (G4double)

void	SetFluctuationFlag (G4bool val)

void	SetForceBuildTable (G4bool val)

void	SetGeomFactor (G4double)

void	SetHighEnergyLimit (G4double)

void	SetIonisation (G4VEnergyLossProcess , const G4ParticleDefinition part)

void	SetLambdaLimit (G4double)

void	SetLateralDisplasmentFlag (G4bool val)

void	SetLocked (G4bool)

void	SetLowEnergyLimit (G4double)

void	SetLPMFlag (G4bool val)

void	SetMasterThread (G4bool val)

void	SetParticleChange (G4VParticleChange , G4VEmFluctuationModel f=nullptr)

void	SetPolarAngleLimit (G4double)

void	SetRangeFactor (G4double)

void	SetSafetyFactor (G4double)

void	SetSampleZ (G4bool)

void	SetSecondaryThreshold (G4double)

void	SetSingleScatteringFactor (G4double)

void	SetSkin (G4double)

void	SetStepLimitType (G4MscStepLimitType)

void	SetTripletModel (G4VEmModel *)

virtual void	SetupForMaterial (const G4ParticleDefinition , const G4Material , G4double kineticEnergy)

void	SetUseBaseMaterials (G4bool val)

void	SetUseSecondMoment (G4bool)

void	SetWVICrossSection (G4WentzelOKandVIxSection *)

void	StartTracking (G4Track *) override

G4bool	UseAngularGeneratorFlag () const

G4bool	UseBaseMaterials () const

G4bool	UseSecondMoment () const

virtual G4double	Value (const G4MaterialCutsCouple , const G4ParticleDefinition , G4double kineticEnergy)

virtual	~G4LowEWentzelVIModel ()

Protected Member Functions
G4double	ComputeTransportXSectionPerVolume (G4double cosTheta)

G4double	ConvertTrueToGeom (G4double &tLength, G4double &gLength)

const G4MaterialCutsCouple *	CurrentCouple () const

G4ParticleChangeForGamma *	GetParticleChangeForGamma ()

G4ParticleChangeForLoss *	GetParticleChangeForLoss ()

G4ParticleChangeForMSC *	GetParticleChangeForMSC (const G4ParticleDefinition *p=nullptr)

virtual G4double	MaxSecondaryEnergy (const G4ParticleDefinition *, G4double kineticEnergy)

void	SetCurrentElement (const G4Element *)

void	SetupParticle (const G4ParticleDefinition *)

Protected Attributes
size_t	basedCoupleIndex = 0

G4double	cosTetMaxNuc = 0.0

G4double	cosThetaMax = -1.0

G4double	cosThetaMin = 1.0

const G4MaterialCutsCouple *	currentCouple = nullptr

size_t	currentCoupleIndex = 0

const G4DataVector *	currentCuts = nullptr

const G4Material *	currentMaterial = nullptr

G4int	currentMaterialIndex = 0

G4double	currentRange = 0.0

G4double	dtrl = 0.05

G4double	effKinEnergy = 0.0

G4double	facgeom = 2.5

G4double	facrange = 0.04

G4double	facsafety = 0.6

G4ThreeVector	fDisplacement

G4ElementData *	fElementData = nullptr

G4double	fixedCut = -1.0

G4ParticleChangeForMSC *	fParticleChange = nullptr

G4PhysicsTable *	fSecondMoments = nullptr

G4double	geomMax

G4double	geomMin

size_t	idx2 = 0

G4double	inveplus

G4double	invssFactor = 1.0

G4bool	isCombined

G4double	lambdaeff = 0.0

G4double	lambdalimit

G4bool	latDisplasment = true

G4bool	lossFlucFlag = true

G4double	lowEnergyLimit

G4int	nelments = 0

const G4ParticleDefinition *	particle = nullptr

const G4Material *	pBaseMaterial = nullptr

G4double	pFactor = 1.0

G4VParticleChange *	pParticleChange = nullptr

G4double	preKinEnergy = 0.0

std::vector< G4double >	prob

G4bool	samplez = false

G4bool	singleScatteringMode

G4double	skin = 1.0

G4double	ssFactor = 1.05

G4MscStepLimitType	steppingAlgorithm

const std::vector< G4double > *	theDensityFactor = nullptr

const std::vector< G4int > *	theDensityIdx = nullptr

G4double	tlimitminfix

G4double	tPathLength = 0.0

G4bool	useSecondMoment

G4WentzelOKandVIxSection *	wokvi

std::vector< G4double >	xsecn

G4PhysicsTable *	xSectionTable = nullptr

G4double	xtsec = 0.0

G4double	zPathLength = 0.0

Private Member Functions
G4double	ComputeSecondMoment (const G4ParticleDefinition *, G4double kineticEnergy)

Private Attributes
G4VEmAngularDistribution *	anglModel = nullptr

const G4ParticleDefinition *	currentPart = nullptr

G4double	dedx = 0.0

std::vector< G4EmElementSelector * > *	elmSelectors = nullptr

G4double	eMaxActive = DBL_MAX

G4double	eMinActive = 0.0

const G4MaterialCutsCouple *	fCurrentCouple = nullptr

const G4Element *	fCurrentElement = nullptr

const G4Isotope *	fCurrentIsotope = nullptr

G4LossTableManager *	fEmManager

G4bool	flagDeexcitation = false

G4bool	flagForceBuildTable = false

G4VEmFluctuationModel *	flucModel = nullptr

G4VEmModel *	fTripletModel = nullptr

G4double	highLimit

G4VEnergyLossProcess *	ionisation = nullptr

G4bool	isLocked = false

G4bool	isMaster = true

G4bool	localElmSelectors = true

G4double	localrange = DBL_MAX

G4bool	localTable = true

G4double	localtkin = 0.0

G4double	lowLimit

const G4String	name

G4int	nsec = 5

G4int	nSelectors = 0

G4double	polarAngleLimit

G4SafetyHelper *	safetyHelper = nullptr

G4double	secondaryThreshold = DBL_MAX

G4bool	theLPMflag = false

G4bool	useAngularGenerator = false

G4bool	useBaseMaterials = false

std::vector< G4double >	xsec

Detailed Description

Definition at line 57 of file G4LowEWentzelVIModel.hh.

Constructor & Destructor Documentation

◆ G4LowEWentzelVIModel() [1/2]

G4LowEWentzelVIModel::G4LowEWentzelVIModel ( )

explicit

Definition at line 57 of file G4LowEWentzelVIModel.cc.

                                           :
  G4WentzelVIModel(false,"LowEnWentzelVI")
{
  SetSingleScatteringFactor(0.5);
}

References G4WentzelVIModel::SetSingleScatteringFactor().

◆ ~G4LowEWentzelVIModel()

G4LowEWentzelVIModel::~G4LowEWentzelVIModel ( )

virtual

Definition at line 65 of file G4LowEWentzelVIModel.cc.

66{}

◆ G4LowEWentzelVIModel() [2/2]

G4LowEWentzelVIModel::G4LowEWentzelVIModel ( const G4LowEWentzelVIModel & )

delete

Member Function Documentation

◆ ChargeSquareRatio()

G4double G4VEmModel::ChargeSquareRatio ( const G4Track & track )

virtualinherited

Reimplemented in G4BraggIonGasModel, and G4BetheBlochIonGasModel.

Definition at line 374 of file G4VEmModel.cc.

{
  return GetChargeSquareRatio(track.GetParticleDefinition(), 
                              track.GetMaterial(), track.GetKineticEnergy());
}

References G4VEmModel::GetChargeSquareRatio(), G4Track::GetKineticEnergy(), G4Track::GetMaterial(), and G4Track::GetParticleDefinition().

Referenced by G4VEnergyLossProcess::PostStepGetPhysicalInteractionLength().

◆ ComputeCrossSectionPerAtom() [1/2]

G4double G4VEmModel::ComputeCrossSectionPerAtom	(	const G4ParticleDefinition *	part,
		const G4Element *	elm,
		G4double	kinEnergy,
		G4double	cutEnergy = `0.0`,
		G4double	maxEnergy = `DBL_MAX`
	)

inlineinherited

Definition at line 566 of file G4VEmModel.hh.

{
  SetCurrentElement(elm);
  return ComputeCrossSectionPerAtom(part,kinEnergy,elm->GetZ(),elm->GetN(),
                                    cutEnergy,maxEnergy);
}

References G4VEmModel::ComputeCrossSectionPerAtom(), G4Element::GetN(), G4Element::GetZ(), and G4VEmModel::SetCurrentElement().

◆ ComputeCrossSectionPerAtom() [2/2]

G4double G4WentzelVIModel::ComputeCrossSectionPerAtom	(	const G4ParticleDefinition *	p,
		G4double	KineticEnergy,
		G4double	AtomicNumber,
		G4double	AtomicWeight = `0.`,
		G4double	cut = `DBL_MAX`,
		G4double	emax = `DBL_MAX`
	)

overridevirtualinherited

Reimplemented from G4VEmModel.

Reimplemented in G4WentzelVIRelModel.

Definition at line 211 of file G4WentzelVIModel.cc.

{
  G4double cross = 0.0;
  SetupParticle(p); 
  if(kinEnergy < lowEnergyLimit) { return cross; }
  if(nullptr == CurrentCouple()) {
    G4Exception("G4WentzelVIModel::ComputeCrossSectionPerAtom", "em0011",
                FatalException, " G4MaterialCutsCouple is not defined");
    return 0.0;
  }
  DefineMaterial(CurrentCouple());
  cosTetMaxNuc = wokvi->SetupKinematic(kinEnergy, currentMaterial);
  if(cosTetMaxNuc < 1.0) {
    G4double cut  = (0.0 < fixedCut) ? fixedCut : cutEnergy;
    G4double cost = wokvi->SetupTarget(G4lrint(Z), cut);
    cross = wokvi->ComputeTransportCrossSectionPerAtom(cost);
    /*
    if(p->GetParticleName() == "e-")      
    G4cout << "G4WentzelVIModel::CS: Z= " << G4int(Z) << " e(MeV)= "<<kinEnergy 
           << " 1-cosN= " << 1 - cosTetMaxNuc << " cross(bn)= " << cross/barn
           << " " << particle->GetParticleName() << G4endl;
    */
  }
  return cross;
}

References G4WentzelOKandVIxSection::ComputeTransportCrossSectionPerAtom(), G4WentzelVIModel::cosTetMaxNuc, G4VEmModel::CurrentCouple(), G4WentzelVIModel::currentMaterial, G4WentzelVIModel::DefineMaterial(), FatalException, G4WentzelVIModel::fixedCut, G4Exception(), G4lrint(), G4WentzelVIModel::lowEnergyLimit, G4WentzelOKandVIxSection::SetupKinematic(), G4WentzelVIModel::SetupParticle(), G4WentzelOKandVIxSection::SetupTarget(), G4WentzelVIModel::wokvi, and Z.

◆ ComputeCrossSectionPerShell()

G4double G4VEmModel::ComputeCrossSectionPerShell	(	const G4ParticleDefinition *	,
		G4int	Z,
		G4int	shellIdx,
		G4double	kinEnergy,
		G4double	cutEnergy = `0.0`,
		G4double	maxEnergy = `DBL_MAX`
	)

virtualinherited

Definition at line 351 of file G4VEmModel.cc.

{
  return 0.0;
}

Referenced by G4EmCalculator::ComputeCrossSectionPerShell().

◆ ComputeDEDX()

G4double G4VEmModel::ComputeDEDX	(	const G4MaterialCutsCouple *	couple,
		const G4ParticleDefinition *	part,
		G4double	kineticEnergy,
		G4double	cutEnergy = `DBL_MAX`
	)

inlineinherited

Definition at line 528 of file G4VEmModel.hh.

{
  SetCurrentCouple(couple);
  return pFactor*ComputeDEDXPerVolume(pBaseMaterial,part,kinEnergy,cutEnergy);
}

References G4VEmModel::ComputeDEDXPerVolume(), G4VEmModel::pBaseMaterial, G4VEmModel::pFactor, and G4VEmModel::SetCurrentCouple().

◆ ComputeDEDXPerVolume()

G4double G4VEmModel::ComputeDEDXPerVolume	(	const G4Material *	,
		const G4ParticleDefinition *	,
		G4double	kineticEnergy,
		G4double	cutEnergy = `DBL_MAX`
	)

virtualinherited

Reimplemented in G4eBremsstrahlungRelModel, G4PAIModel, G4PAIPhotModel, G4EmMultiModel, G4BetheBlochNoDeltaModel, G4BraggNoDeltaModel, G4ICRU73NoDeltaModel, G4mplIonisationModel, G4mplIonisationWithDeltaModel, G4LivermoreIonisationModel, G4PenelopeBremsstrahlungModel, G4PenelopeIonisationModel, G4MuBetheBlochModel, G4MuBremsstrahlungModel, G4MuPairProductionModel, G4BetheBlochModel, G4BraggIonModel, G4BraggModel, G4eBremParametrizedModel, G4LindhardSorensenIonModel, G4MollerBhabhaModel, G4ICRU49NuclearStoppingModel, G4AtimaEnergyLossModel, G4ICRU73QOModel, and G4IonParametrisedLossModel.

Definition at line 228 of file G4VEmModel.cc.

{
  return 0.0;
}

Referenced by G4NuclearStopping::AlongStepDoIt(), G4EmCorrections::BuildCorrectionVector(), G4VEmModel::ComputeDEDX(), G4EmCalculator::ComputeDEDX(), G4NIELCalculator::ComputeNIEL(), and G4EmCalculator::ComputeNuclearDEDX().

◆ ComputeGeomLimit()

G4double G4VMscModel::ComputeGeomLimit	(	const G4Track &	track,
		G4double &	presafety,
		G4double	limit
	)

inlineinherited

Definition at line 290 of file G4VMscModel.hh.

{
  return safetyHelper->CheckNextStep(
          track.GetStep()->GetPreStepPoint()->GetPosition(),
      track.GetMomentumDirection(),
      limit, presafety);
}

References G4SafetyHelper::CheckNextStep(), G4Track::GetMomentumDirection(), G4StepPoint::GetPosition(), G4Step::GetPreStepPoint(), G4Track::GetStep(), and G4VMscModel::safetyHelper.

Referenced by G4UrbanAdjointMscModel::ComputeTruePathLengthLimit(), ComputeTruePathLengthLimit(), G4GoudsmitSaundersonMscModel::ComputeTruePathLengthLimit(), G4UrbanMscModel::ComputeTruePathLengthLimit(), and G4WentzelVIModel::ComputeTruePathLengthLimit().

◆ ComputeGeomPathLength()

G4double G4WentzelVIModel::ComputeGeomPathLength ( G4double truePathLength )

overridevirtualinherited

Implements G4VMscModel.

Definition at line 353 of file G4WentzelVIModel.cc.

{
  zPathLength = tPathLength = truelength;
 
  // small step use only single scattering
  cosThetaMin = 1.0;
  ComputeTransportXSectionPerVolume(cosThetaMin);
  //G4cout << "xtsec= " << xtsec << "  Nav= " 
  //         << zPathLength*xtsec << G4endl;
  if(0.0 >= lambdaeff || G4int(zPathLength*xtsec) < minNCollisions) {
    singleScatteringMode = true;
    lambdaeff = DBL_MAX;
 
  } else {
    //G4cout << "ComputeGeomPathLength: tLength= " << tPathLength
    //           << " Leff= " << lambdaeff << G4endl; 
    // small step
    if(tPathLength < numlimit*lambdaeff) {
      G4double tau = tPathLength/lambdaeff;
      zPathLength *= (1.0 - 0.5*tau + tau*tau/6.0);
 
      // medium step
    } else {
      G4double e1 = 0.0;
      if(currentRange > tPathLength) {
        e1 = GetEnergy(particle,currentRange-tPathLength,currentCouple);
      }
      effKinEnergy = 0.5*(e1 + preKinEnergy);
      cosTetMaxNuc = wokvi->SetupKinematic(effKinEnergy, currentMaterial);
      lambdaeff = GetTransportMeanFreePath(particle, effKinEnergy);
      //G4cout << " tLength= "<< tPathLength<< " Leff= " << lambdaeff << G4endl;
      zPathLength = lambdaeff;
      if(tPathLength*numlimit < lambdaeff) {
        zPathLength *= (1.0 - G4Exp(-tPathLength/lambdaeff));
      }
    }
  }
  //G4cout << "Comp.geom: zLength= "<<zPathLength<<" tLength= "
  //         << tPathLength<< " Leff= " << lambdaeff << G4endl;
  return zPathLength;
}

◆ ComputeMeanFreePath()

G4double G4VEmModel::ComputeMeanFreePath	(	const G4ParticleDefinition *	part,
		G4double	kineticEnergy,
		const G4Material *	material,
		G4double	cutEnergy = `0.0`,
		G4double	maxEnergy = `DBL_MAX`
	)

inlineinherited

Definition at line 553 of file G4VEmModel.hh.

{
  G4double cross = CrossSectionPerVolume(material,part,ekin,emin,emax);
  return (cross > 0.0) ? 1./cross : DBL_MAX;
}

References G4VEmModel::CrossSectionPerVolume(), DBL_MAX, emax, and eplot::material.

◆ ComputeSafety()

G4double G4VMscModel::ComputeSafety	(	const G4ThreeVector &	position,
		G4double	limit = `DBL_MAX`
	)

inlineinherited

Definition at line 272 of file G4VMscModel.hh.

{
   return safetyHelper->ComputeSafety(position, limit);
}

References G4SafetyHelper::ComputeSafety(), and G4VMscModel::safetyHelper.

Referenced by G4UrbanAdjointMscModel::ComputeTruePathLengthLimit(), ComputeTruePathLengthLimit(), G4GoudsmitSaundersonMscModel::ComputeTruePathLengthLimit(), G4UrbanMscModel::ComputeTruePathLengthLimit(), and G4WentzelVIModel::ComputeTruePathLengthLimit().

◆ ComputeSecondMoment()

G4double G4WentzelVIModel::ComputeSecondMoment	(	const G4ParticleDefinition *	p,
		G4double	kineticEnergy
	)

privateinherited

Definition at line 759 of file G4WentzelVIModel.cc.

{
  G4double xs = 0.0;
 
  SetupParticle(p);
  cosTetMaxNuc = wokvi->SetupKinematic(kinEnergy, currentMaterial);
 
  if(cosTetMaxNuc >= 1.0) { return xs; }
 
  const G4ElementVector* theElementVector = currentMaterial->GetElementVector();
  const G4double* theAtomNumDensityVector = 
    currentMaterial->GetVecNbOfAtomsPerVolume();
  G4int nelm = currentMaterial->GetNumberOfElements();
 
  G4double cut = (*currentCuts)[currentMaterialIndex];
  if(fixedCut > 0.0) { cut = fixedCut; }
 
  // loop over elements
  for (G4int i=0; i<nelm; ++i) {
    G4double costm = 
      wokvi->SetupTarget((*theElementVector)[i]->GetZasInt(), cut);
    xs += theAtomNumDensityVector[i]
      *wokvi->ComputeSecondTransportMoment(costm);
  }
  return xs;
}

References G4WentzelOKandVIxSection::ComputeSecondTransportMoment(), G4WentzelVIModel::cosTetMaxNuc, G4WentzelVIModel::currentMaterial, G4WentzelVIModel::currentMaterialIndex, G4WentzelVIModel::fixedCut, G4Material::GetElementVector(), G4Material::GetNumberOfElements(), G4Material::GetVecNbOfAtomsPerVolume(), G4WentzelOKandVIxSection::SetupKinematic(), G4WentzelVIModel::SetupParticle(), G4WentzelOKandVIxSection::SetupTarget(), and G4WentzelVIModel::wokvi.

Referenced by G4WentzelVIModel::Initialise(), and G4WentzelVIModel::SecondMoment().

◆ ComputeTransportXSectionPerVolume()

G4double G4WentzelVIModel::ComputeTransportXSectionPerVolume ( G4double cosTheta )

protectedinherited

Definition at line 704 of file G4WentzelVIModel.cc.

{
  // prepare recomputation of x-sections
  const G4ElementVector* theElementVector = currentMaterial->GetElementVector();
  const G4double* theAtomNumDensityVector = 
    currentMaterial->GetVecNbOfAtomsPerVolume();
  G4int nelm = currentMaterial->GetNumberOfElements();
  if(nelm > nelments) {
    nelments = nelm;
    xsecn.resize(nelm);
    prob.resize(nelm);
  }
 
  // check consistency
  xtsec = 0.0;
  if(cosTetMaxNuc >= cosTheta) { return 0.0; }
 
  G4double cut = (*currentCuts)[currentMaterialIndex];
  if(fixedCut > 0.0) { cut = fixedCut; }
 
  // loop over elements
  G4double xs = 0.0;
  for (G4int i=0; i<nelm; ++i) {
    G4double costm = 
      wokvi->SetupTarget((*theElementVector)[i]->GetZasInt(), cut);
    G4double density = theAtomNumDensityVector[i];
 
    G4double esec = 0.0;
    if(costm < cosTheta) {  
 
      // recompute the transport x-section
      if(1.0 > cosTheta) {
        xs += density*wokvi->ComputeTransportCrossSectionPerAtom(cosTheta);
      }
      // recompute the total x-section
      G4double nucsec = wokvi->ComputeNuclearCrossSection(cosTheta, costm);
      esec = wokvi->ComputeElectronCrossSection(cosTheta, costm);
      nucsec += esec;
      if(nucsec > 0.0) { esec /= nucsec; }
      xtsec += nucsec*density;
    }
    xsecn[i] = xtsec;
    prob[i]  = esec;
    //G4cout << i << "  xs= " << xs << " xtsec= " << xtsec 
    //       << " 1-cosTheta= " << 1-cosTheta 
    //           << " 1-cosTetMaxNuc2= " <<1-cosTetMaxNuc2<< G4endl;
  }
  
  //G4cout << "ComputeXS result:  xsec(1/mm)= " << xs 
  //         << " txsec(1/mm)= " << xtsec <<G4endl; 
  return xs;
}

References G4WentzelOKandVIxSection::ComputeElectronCrossSection(), G4WentzelOKandVIxSection::ComputeNuclearCrossSection(), G4WentzelOKandVIxSection::ComputeTransportCrossSectionPerAtom(), G4WentzelVIModel::cosTetMaxNuc, G4WentzelVIModel::currentMaterial, G4WentzelVIModel::currentMaterialIndex, G4WentzelVIModel::fixedCut, G4Material::GetElementVector(), G4Material::GetNumberOfElements(), G4Material::GetVecNbOfAtomsPerVolume(), G4WentzelVIModel::nelments, G4WentzelVIModel::prob, G4WentzelOKandVIxSection::SetupTarget(), G4WentzelVIModel::wokvi, G4WentzelVIModel::xsecn, and G4WentzelVIModel::xtsec.

Referenced by G4WentzelVIModel::ComputeGeomPathLength(), and G4WentzelVIModel::ComputeTrueStepLength().

◆ ComputeTruePathLengthLimit()

G4double G4LowEWentzelVIModel::ComputeTruePathLengthLimit	(	const G4Track &	track,
		G4double &	currentMinimalStep
	)

overridevirtual

Implements G4VMscModel.

Definition at line 70 of file G4LowEWentzelVIModel.cc.

{
  G4double tlimit = currentMinimalStep;
  const G4DynamicParticle* dp = track.GetDynamicParticle();
  G4StepPoint* sp = track.GetStep()->GetPreStepPoint();
  G4StepStatus stepStatus = sp->GetStepStatus();
  singleScatteringMode = false;
 
  // initialisation for each step, lambda may be computed from scratch
  preKinEnergy  = dp->GetKineticEnergy();
  DefineMaterial(track.GetMaterialCutsCouple());
  lambdaeff = GetTransportMeanFreePath(particle,preKinEnergy);
  currentRange = GetRange(particle,preKinEnergy,currentCouple);
  cosTetMaxNuc = wokvi->SetupKinematic(preKinEnergy, currentMaterial);
 
  // extra check for abnormal situation
  // this check needed to run MSC with eIoni and eBrem inactivated
  tlimit = std::min(tlimit, currentRange);
 
  // stop here if small range particle
  if(tlimit < tlimitminfix) { 
    return ConvertTrueToGeom(tlimit, currentMinimalStep); 
  }
 
  // pre step
  G4double presafety = sp->GetSafety();
  // far from geometry boundary
  if(currentRange < presafety) {
    return ConvertTrueToGeom(tlimit, currentMinimalStep);
  }
 
  // compute presafety again if presafety <= 0 and no boundary
  // i.e. when it is needed for optimization purposes
  if(stepStatus != fGeomBoundary && presafety < tlimitminfix) {
    presafety = ComputeSafety(sp->GetPosition(), tlimit); 
    if(currentRange < presafety) {
      return ConvertTrueToGeom(tlimit, currentMinimalStep);
    }
  }
  /*   
  G4cout << "e(MeV)= " << preKinEnergy/MeV
     << "  " << particle->GetParticleName() 
     << " CurLimit(mm)= " << tlimit/mm <<" safety(mm)= " << presafety/mm
     << " R(mm)= " <<currentRange/mm
     << " L0(mm^-1)= " << lambdaeff*mm 
     <<G4endl;
  */
  // natural limit for high energy
  G4double rlimit = std::max(facrange*currentRange, lambdaeff);
 
  // low-energy e-
  rlimit = std::max(rlimit, facsafety*presafety);
    
  tlimit = std::min(tlimit, rlimit);
  tlimit = std::max(tlimit, tlimitminfix);
 
  // step limit in infinite media
  tlimit = std::min(tlimit, 50*currentMaterial->GetRadlen()/facgeom);
 
  //compute geomlimit and force few steps within a volume
  if (steppingAlgorithm == fUseDistanceToBoundary 
      && stepStatus == fGeomBoundary) {
 
    G4double geomlimit = ComputeGeomLimit(track, presafety, currentRange);
    tlimit = std::min(tlimit, geomlimit/facgeom);
  } 
  /*  
  G4cout << particle->GetParticleName() << " E(MeV)= " << preKinEnergy
     << " L0= " << lambdaeff << " R= " << currentRange
     << " tlimit= " << tlimit  
     << " currentMinimalStep= " << currentMinimalStep << G4endl;
  */
  return ConvertTrueToGeom(tlimit, currentMinimalStep);
}

References G4VMscModel::ComputeGeomLimit(), G4VMscModel::ComputeSafety(), G4VMscModel::ConvertTrueToGeom(), G4WentzelVIModel::cosTetMaxNuc, G4WentzelVIModel::currentCouple, G4WentzelVIModel::currentMaterial, G4WentzelVIModel::currentRange, G4WentzelVIModel::DefineMaterial(), G4VMscModel::facgeom, G4VMscModel::facrange, G4VMscModel::facsafety, fGeomBoundary, fUseDistanceToBoundary, G4Track::GetDynamicParticle(), G4DynamicParticle::GetKineticEnergy(), G4Track::GetMaterialCutsCouple(), G4Step::GetPreStepPoint(), G4Material::GetRadlen(), G4VMscModel::GetRange(), G4Track::GetStep(), G4VMscModel::GetTransportMeanFreePath(), G4WentzelVIModel::lambdaeff, G4INCL::Math::max(), G4INCL::Math::min(), G4WentzelVIModel::particle, G4WentzelVIModel::preKinEnergy, G4WentzelOKandVIxSection::SetupKinematic(), G4WentzelVIModel::singleScatteringMode, G4InuclParticleNames::sp, G4VMscModel::steppingAlgorithm, G4WentzelVIModel::tlimitminfix, and G4WentzelVIModel::wokvi.

◆ ComputeTrueStepLength()

G4double G4WentzelVIModel::ComputeTrueStepLength ( G4double geomStepLength )

overridevirtualinherited

Implements G4VMscModel.

Definition at line 397 of file G4WentzelVIModel.cc.

{
  // initialisation of single scattering x-section
  /*
  G4cout << "ComputeTrueStepLength: Step= " << geomStepLength 
         << "  geomL= " << zPathLength
         << "  Lambda= " <<  lambdaeff 
           << " 1-cosThetaMaxNuc= " << 1 - cosTetMaxNuc << G4endl;
  */
  if(singleScatteringMode) {
    zPathLength = tPathLength = geomStepLength;
 
  } else {
 
    // step defined by transportation
    // change both geom and true step lengths 
    if(geomStepLength < zPathLength) { 
 
      // single scattering
      if(G4int(geomStepLength*xtsec) < minNCollisions) {
        zPathLength = tPathLength = geomStepLength;
        lambdaeff = DBL_MAX;
        singleScatteringMode = true;
 
        // multiple scattering
      } else {
        // small step
        if(geomStepLength < numlimit*lambdaeff) {
          G4double tau = geomStepLength/lambdaeff;
          tPathLength = geomStepLength*(1.0 + 0.5*tau + tau*tau/3.0); 
 
          // energy correction for a big step
        } else {
          tPathLength *= geomStepLength/zPathLength;
          G4double e1 = 0.0;
          if(currentRange > tPathLength) {
            e1 = GetEnergy(particle,currentRange-tPathLength,currentCouple);
          }
          effKinEnergy = 0.5*(e1 + preKinEnergy);
          cosTetMaxNuc = wokvi->SetupKinematic(effKinEnergy, currentMaterial);
          lambdaeff = GetTransportMeanFreePath(particle, effKinEnergy);
          G4double tau = geomStepLength/lambdaeff;
 
          if(tau < 0.999999) { tPathLength = -lambdaeff*G4Log(1.0 - tau); } 
          else               { tPathLength = currentRange; }
        }
        zPathLength = geomStepLength;
      }
    }
  }
  // check of step length
  // define threshold angle between single and multiple scattering 
  if(!singleScatteringMode) {
    cosThetaMin -= ssFactor*tPathLength/lambdaeff; 
    xtsec = 0.0;
 
    // recompute transport cross section - do not change energy
    // anymore - cannot be applied for big steps
    if(cosThetaMin > cosTetMaxNuc) {
      // new computation
      G4double cross = ComputeTransportXSectionPerVolume(cosThetaMin);
      //G4cout << "%%%% cross= " << cross << "  xtsec= " << xtsec 
      //           << " 1-cosTMin= " << 1.0 - cosThetaMin << G4endl;
      if(cross <= 0.0) {
        singleScatteringMode = true;
        tPathLength = zPathLength; 
        lambdaeff = DBL_MAX;
        cosThetaMin = 1.0;
      } else if(xtsec > 0.0) {
        
        lambdaeff = 1./cross; 
        G4double tau = zPathLength*cross;
        if(tau < numlimit) { 
          tPathLength = zPathLength*(1.0 + 0.5*tau + tau*tau/3.0); 
        } else if(tau < 0.999999) { 
          tPathLength = -lambdaeff*G4Log(1.0 - tau); 
        } else { 
          tPathLength = currentRange;
        }
      }
    } 
  }
  tPathLength = std::min(tPathLength, currentRange);
  /*      
  G4cout <<"Comp.true: zLength= "<<zPathLength<<" tLength= "<<tPathLength
         <<" Leff(mm)= "<<lambdaeff/mm<<" sig0(1/mm)= " << xtsec <<G4endl;
  G4cout << particle->GetParticleName() << " 1-cosThetaMin= " << 1-cosThetaMin
         << " 1-cosTetMaxNuc= " << 1-cosTetMaxNuc 
         << " e(MeV)= " << preKinEnergy/MeV << "  "  
         << " SSmode= " << singleScatteringMode << G4endl;
  */
  return tPathLength;
}

◆ ConvertTrueToGeom()

G4double G4VMscModel::ConvertTrueToGeom	(	G4double &	tLength,
		G4double &	gLength
	)

inlineprotectedinherited

Definition at line 280 of file G4VMscModel.hh.

{
  glength = ComputeGeomPathLength(tlength);
  // should return true length 
  return tlength;
}

References G4VMscModel::ComputeGeomPathLength().

Referenced by G4UrbanAdjointMscModel::ComputeTruePathLengthLimit(), ComputeTruePathLengthLimit(), G4GoudsmitSaundersonMscModel::ComputeTruePathLengthLimit(), G4UrbanMscModel::ComputeTruePathLengthLimit(), and G4WentzelVIModel::ComputeTruePathLengthLimit().

◆ CorrectionsAlongStep()

void G4VEmModel::CorrectionsAlongStep	(	const G4MaterialCutsCouple *	,
		const G4DynamicParticle *	,
		const G4double &	length,
		G4double &	eloss
	)

virtualinherited

Reimplemented in G4IonParametrisedLossModel, G4AtimaEnergyLossModel, G4BraggIonModel, G4ICRU73QOModel, G4BetheBlochModel, and G4LindhardSorensenIonModel.

Definition at line 399 of file G4VEmModel.cc.

402{}

Referenced by G4ContinuousGainOfEnergy::AlongStepDoIt(), G4VEnergyLossProcess::AlongStepDoIt(), G4EmCalculator::ComputeDEDX(), and G4EmCalculator::GetDEDX().

◆ CrossSection()

G4double G4VEmModel::CrossSection	(	const G4MaterialCutsCouple *	couple,
		const G4ParticleDefinition *	part,
		G4double	kineticEnergy,
		G4double	cutEnergy = `0.0`,
		G4double	maxEnergy = `DBL_MAX`
	)

inlineinherited

Definition at line 539 of file G4VEmModel.hh.

{
  SetCurrentCouple(couple);
  return pFactor*CrossSectionPerVolume(pBaseMaterial,part,kinEnergy,
                                       cutEnergy,maxEnergy);
}

References G4VEmModel::CrossSectionPerVolume(), G4VEmModel::pBaseMaterial, G4VEmModel::pFactor, and G4VEmModel::SetCurrentCouple().

Referenced by G4PolarizedAnnihilation::ComputeAsymmetry(), G4PolarizedIonisation::ComputeAsymmetry(), G4PolarizedCompton::ComputeAsymmetry(), G4EmModelManager::FillLambdaVector(), and G4EmMultiModel::SampleSecondaries().

◆ CrossSectionPerVolume()

G4double G4VEmModel::CrossSectionPerVolume	(	const G4Material *	mat,
		const G4ParticleDefinition *	p,
		G4double	kineticEnergy,
		G4double	cutEnergy = `0.0`,
		G4double	maxEnergy = `DBL_MAX`
	)

virtualinherited

Reimplemented in G4LivermorePhotoElectricModel, G4PAIModel, G4PAIPhotModel, G4BetheBlochNoDeltaModel, G4BraggNoDeltaModel, G4eeToHadronsModel, G4eeToHadronsMultiModel, G4ICRU73NoDeltaModel, G4MuBetheBlochModel, G4AtimaEnergyLossModel, G4BetheBlochModel, G4BraggIonModel, G4BraggModel, G4ICRU73QOModel, G4LindhardSorensenIonModel, G4MollerBhabhaModel, G4PEEffectFluoModel, G4PenelopeRayleighModelMI, G4LEPTSAttachmentModel, G4LEPTSDissociationModel, G4LEPTSElasticModel, G4LEPTSExcitationModel, G4LEPTSIonisationModel, G4LEPTSPositroniumModel, G4LEPTSRotExcitationModel, G4LEPTSVibExcitationModel, G4eplusTo2GammaOKVIModel, G4eplusTo3GammaOKVIModel, G4PenelopeComptonModel, G4eeToTwoGammaModel, G4GoudsmitSaundersonMscModel, G4IonParametrisedLossModel, G4DNABornExcitationModel1, G4DNABornExcitationModel2, G4DNABornIonisationModel1, G4DNABornIonisationModel2, G4DNAChampionElasticModel, G4DNACPA100ElasticModel, G4DNACPA100ExcitationModel, G4DNACPA100IonisationModel, G4DNADingfelderChargeDecreaseModel, G4DNADingfelderChargeIncreaseModel, G4DNADiracRMatrixExcitationModel, G4DNAEmfietzoglouExcitationModel, G4DNAEmfietzoglouIonisationModel, G4DNAIonElasticModel, G4DNAMeltonAttachmentModel, G4DNAMillerGreenExcitationModel, G4DNAModelInterface, G4TDNAOneStepThermalizationModel< MODEL >, G4DNAQuinnPlasmonExcitationModel, G4DNARelativisticIonisationModel, G4DNARuddIonisationExtendedModel, G4DNARuddIonisationModel, G4DNASancheExcitationModel, G4DNAScreenedRutherfordElasticModel, G4DNATransformElectronModel, G4DNAUeharaScreenedRutherfordElasticModel, G4MicroElecElasticModel, G4MicroElecElasticModel_new, G4MicroElecInelasticModel, G4MicroElecInelasticModel_new, G4MicroElecLOPhononModel, G4DNAELSEPAElasticModel, G4PenelopeBremsstrahlungModel, and G4PenelopeIonisationModel.

Definition at line 237 of file G4VEmModel.cc.

{
  SetupForMaterial(p, mat, ekin);
  const G4double* theAtomNumDensityVector = mat->GetVecNbOfAtomsPerVolume();
  G4int nelm = mat->GetNumberOfElements(); 
  if(nelm > nsec) {
    xsec.resize(nelm);
    nsec = nelm;
  }
  G4double cross = 0.0;
  for (G4int i=0; i<nelm; ++i) {
    cross += theAtomNumDensityVector[i]*
      ComputeCrossSectionPerAtom(p,mat->GetElement(i),ekin,emin,emax);
    xsec[i] = cross;
  }
  return cross;
}

References G4VEmModel::ComputeCrossSectionPerAtom(), emax, G4Material::GetElement(), G4Material::GetNumberOfElements(), G4Material::GetVecNbOfAtomsPerVolume(), G4VEmModel::nsec, G4VEmModel::SetupForMaterial(), and G4VEmModel::xsec.

Referenced by G4AdjointBremsstrahlungModel::AdjointCrossSection(), G4EmCalculator::ComputeCrossSectionPerVolume(), G4VEmProcess::ComputeCurrentLambda(), G4VEmModel::ComputeMeanFreePath(), G4TablesForExtrapolator::ComputeTrasportXS(), G4VEmModel::CrossSection(), G4LivermorePhotoElectricModel::CrossSectionPerVolume(), G4PenelopeRayleighModelMI::CrossSectionPerVolume(), G4DNADummyModel::CrossSectionPerVolume(), G4VEnergyLossProcess::CrossSectionPerVolume(), G4VEmAdjointModel::DiffCrossSectionPerVolumePrimToSecond(), G4VMscModel::GetTransportMeanFreePath(), G4VEmModel::SelectRandomAtom(), and G4VEmModel::Value().

◆ CurrentCouple()

const G4MaterialCutsCouple * G4VEmModel::CurrentCouple ( ) const

inlineprotectedinherited

Definition at line 490 of file G4VEmModel.hh.

{
  return fCurrentCouple;
}

References G4VEmModel::fCurrentCouple.

◆ DeexcitationFlag()

G4bool G4VEmModel::DeexcitationFlag ( ) const

inlineinherited

Definition at line 704 of file G4VEmModel.hh.

{
  return flagDeexcitation;
}

References G4VEmModel::flagDeexcitation.

Referenced by G4EmModelManager::DumpModelList().

◆ DefineForRegion()

void G4VEmModel::DefineForRegion ( const G4Region * )

virtualinherited

Reimplemented in G4PAIModel, and G4PAIPhotModel.

Definition at line 360 of file G4VEmModel.cc.

361{}

Referenced by G4EmModelManager::AddEmModel().

◆ DefineMaterial()

void G4WentzelVIModel::DefineMaterial ( const G4MaterialCutsCouple * cup )

inherited

Definition at line 199 of file G4WentzelVIModel.cc.

{ 
  if(cup != currentCouple) {
    currentCouple = cup;
    SetCurrentCouple(cup); 
    currentMaterial = cup->GetMaterial();
    currentMaterialIndex = currentCouple->GetIndex(); 
  }
}

References G4WentzelVIModel::currentCouple, G4WentzelVIModel::currentMaterial, G4WentzelVIModel::currentMaterialIndex, G4MaterialCutsCouple::GetIndex(), G4MaterialCutsCouple::GetMaterial(), and G4VEmModel::SetCurrentCouple().

Referenced by G4WentzelVIModel::ComputeCrossSectionPerAtom(), ComputeTruePathLengthLimit(), G4WentzelVIModel::ComputeTruePathLengthLimit(), G4WentzelVIModel::Initialise(), and G4WentzelVIModel::SecondMoment().

◆ DumpParameters()

void G4VMscModel::DumpParameters ( std::ostream & out ) const

inherited

Definition at line 137 of file G4VMscModel.cc.

{
  G4String alg = "UseSafety";
  if (steppingAlgorithm == fUseDistanceToBoundary) alg = "DistanceToBoundary";
  else if (steppingAlgorithm == fMinimal) alg = "Minimal";
  else if (steppingAlgorithm == fUseSafetyPlus) alg = "SafetyPlus";
 
  out << std::setw(18) << "StepLim=" << alg << " Rfact=" << facrange 
      << " Gfact=" << facgeom << " Sfact=" << facsafety << " DispFlag:" << latDisplasment
      << " Skin=" << skin << " Llim=" << lambdalimit/CLHEP::mm << " mm" << G4endl;
}

References G4VMscModel::facgeom, G4VMscModel::facrange, G4VMscModel::facsafety, fMinimal, fUseDistanceToBoundary, fUseSafetyPlus, G4endl, G4VMscModel::lambdalimit, G4VMscModel::latDisplasment, CLHEP::mm, G4VMscModel::skin, and G4VMscModel::steppingAlgorithm.

Referenced by G4EmModelManager::DumpModelList().

◆ FillNumberOfSecondaries()

void G4VEmModel::FillNumberOfSecondaries	(	G4int &	numberOfTriplets,
		G4int &	numberOfRecoil
	)

virtualinherited

Definition at line 365 of file G4VEmModel.cc.

{
  numberOfTriplets = 0;
  numberOfRecoil = 0;
}

Referenced by G4VEmProcess::PostStepDoIt(), and G4VEnergyLossProcess::PostStepDoIt().

◆ ForceBuildTableFlag()

G4bool G4VEmModel::ForceBuildTableFlag ( ) const

inlineinherited

Definition at line 711 of file G4VEmModel.hh.

{
  return flagForceBuildTable;
}

References G4VEmModel::flagForceBuildTable.

Referenced by G4VMscModel::GetParticleChangeForMSC().

◆ GetAngularDistribution()

G4VEmAngularDistribution * G4VEmModel::GetAngularDistribution ( )

inlineinherited

Definition at line 621 of file G4VEmModel.hh.

{
  return anglModel;
}

References G4VEmModel::anglModel.

◆ GetChargeSquareRatio()

G4double G4VEmModel::GetChargeSquareRatio	(	const G4ParticleDefinition *	p,
		const G4Material *	,
		G4double	kineticEnergy
	)

virtualinherited

Reimplemented in G4BraggIonModel, G4BraggModel, G4IonParametrisedLossModel, G4AtimaEnergyLossModel, G4BetheBlochModel, and G4LindhardSorensenIonModel.

Definition at line 382 of file G4VEmModel.cc.

{
  const G4double q = p->GetPDGCharge()*inveplus;
  return q*q;
}

References G4ParticleDefinition::GetPDGCharge(), and G4VEmModel::inveplus.

Referenced by G4ContinuousGainOfEnergy::AlongStepDoIt(), G4AdjointCSManager::BuildTotalSigmaTables(), G4VEmModel::ChargeSquareRatio(), G4EmCalculator::ComputeDEDX(), G4AdjointIonIonisationModel::CorrectPostStepWeight(), G4ContinuousGainOfEnergy::GetContinuousStepLimit(), and G4EmCalculator::GetDEDX().

◆ GetCrossSectionTable()

G4PhysicsTable * G4VEmModel::GetCrossSectionTable ( )

inlineinherited

Definition at line 870 of file G4VEmModel.hh.

{
  return xSectionTable;
}

References G4VEmModel::xSectionTable.

Referenced by G4VMultipleScattering::BuildPhysicsTable(), G4EmModelManager::DumpModelList(), G4EmCalculator::FindLambdaTable(), G4WentzelVIModel::Initialise(), and G4VMultipleScattering::StorePhysicsTable().

◆ GetCurrentElement()

const G4Element * G4VEmModel::GetCurrentElement ( ) const

inlineinherited

Definition at line 505 of file G4VEmModel.hh.

{
  return fCurrentElement;
}

References G4VEmModel::fCurrentElement.

Referenced by G4VEmProcess::GetCurrentElement(), G4VEnergyLossProcess::GetCurrentElement(), G4VEmProcess::GetTargetElement(), G4PolarizedBremsstrahlungModel::SampleSecondaries(), G4PolarizedGammaConversionModel::SampleSecondaries(), G4PolarizedPhotoElectricModel::SampleSecondaries(), G4PolarizedBremsstrahlungModel::SelectedAtom(), G4PolarizedGammaConversionModel::SelectedAtom(), and G4eBremParametrizedModel::SetCurrentElement().

◆ GetCurrentIsotope()

const G4Isotope * G4VEmModel::GetCurrentIsotope ( ) const

inlineinherited

Definition at line 512 of file G4VEmModel.hh.

{
  return fCurrentIsotope;
}

References G4VEmModel::fCurrentIsotope.

Referenced by G4VEmProcess::GetTargetIsotope().

◆ GetDEDX() [1/2]

G4double G4VMscModel::GetDEDX	(	const G4ParticleDefinition *	part,
		G4double	kineticEnergy,
		const G4MaterialCutsCouple *	couple
	)

inherited

Definition at line 159 of file G4VMscModel.cc.

{
  G4double x;
  if (nullptr != ionisation) {
    x = ionisation->GetDEDX(kinEnergy, couple);
  } else {
    const G4double q = part->GetPDGCharge()*inveplus;
    x = dedx*q*q;
  }
  return x;
}                                                                                                                                                                                                                 

References G4VMscModel::dedx, G4VEnergyLossProcess::GetDEDX(), G4ParticleDefinition::GetPDGCharge(), G4VEmModel::inveplus, and G4VMscModel::ionisation.

Referenced by G4UrbanAdjointMscModel::SampleScattering(), and G4UrbanMscModel::SampleScattering().

◆ GetDEDX() [2/2]

G4double G4VMscModel::GetDEDX	(	const G4ParticleDefinition *	part,
		G4double	kineticEnergy,
		const G4MaterialCutsCouple *	couple,
		G4double	logKineticEnergy
	)

inherited

Definition at line 174 of file G4VMscModel.cc.

{
  G4double x;
  if (nullptr != ionisation) {
    x = ionisation->GetDEDX(kinEnergy, couple, logKinEnergy);
  } else {
    const G4double q = part->GetPDGCharge()*inveplus;
    x = dedx*q*q;
  }
  return x;
}

References G4VMscModel::dedx, G4VEnergyLossProcess::GetDEDX(), G4ParticleDefinition::GetPDGCharge(), G4VEmModel::inveplus, and G4VMscModel::ionisation.

◆ GetElementData()

G4ElementData * G4VEmModel::GetElementData ( )

inlineinherited

Definition at line 863 of file G4VEmModel.hh.

{
  return fElementData;
}

References G4VEmModel::fElementData.

Referenced by G4MuPairProductionModel::InitialiseLocal(), G4ePairProduction::StreamProcessInfo(), and G4MuPairProduction::StreamProcessInfo().

◆ GetElementSelectors()

std::vector< G4EmElementSelector * > * G4VEmModel::GetElementSelectors ( )

inlineinherited

Definition at line 844 of file G4VEmModel.hh.

{
  return elmSelectors;
}

References G4VEmModel::elmSelectors.

◆ GetEnergy()

G4double G4VMscModel::GetEnergy	(	const G4ParticleDefinition *	part,
		G4double	range,
		const G4MaterialCutsCouple *	couple
	)

inherited

Definition at line 224 of file G4VMscModel.cc.

{
  G4double e;
  //G4cout << "G4VMscModel::GetEnergy R(mm)= " << range << "  " << ionisation
  //     << "  Rlocal(mm)= " << localrange << "  Elocal(MeV)= " << localtkin << G4endl;
  if(nullptr != ionisation) { e = ionisation->GetKineticEnergy(range, couple); }
  else {
    e = localtkin;
    if(localrange > range) {
      G4double q = part->GetPDGCharge()*inveplus;
      e -= (localrange - range)*dedx*q*q*couple->GetMaterial()->GetDensity();
    }
  }
  return e;
}

References G4VMscModel::dedx, G4Material::GetDensity(), G4VEnergyLossProcess::GetKineticEnergy(), G4MaterialCutsCouple::GetMaterial(), G4ParticleDefinition::GetPDGCharge(), G4VEmModel::inveplus, G4VMscModel::ionisation, G4VMscModel::localrange, and G4VMscModel::localtkin.

Referenced by G4UrbanAdjointMscModel::ComputeGeomPathLength(), G4GoudsmitSaundersonMscModel::ComputeGeomPathLength(), G4UrbanMscModel::ComputeGeomPathLength(), G4WentzelVIModel::ComputeGeomPathLength(), G4WentzelVIModel::ComputeTrueStepLength(), G4GoudsmitSaundersonMscModel::SampleMSC(), G4UrbanAdjointMscModel::SampleScattering(), and G4UrbanMscModel::SampleScattering().

◆ GetFixedCut()

G4double G4WentzelVIModel::GetFixedCut ( ) const

inlineinherited

Definition at line 208 of file G4WentzelVIModel.hh.

{
  return fixedCut;
}

References G4WentzelVIModel::fixedCut.

◆ GetIonisation()

G4VEnergyLossProcess * G4VMscModel::GetIonisation ( ) const

inlineinherited

Definition at line 302 of file G4VMscModel.hh.

{
  return ionisation;
}

References G4VMscModel::ionisation.

◆ GetModelOfFluctuations()

G4VEmFluctuationModel * G4VEmModel::GetModelOfFluctuations ( )

inlineinherited

Definition at line 614 of file G4VEmModel.hh.

{
  return flucModel;
}

References G4VEmModel::flucModel.

Referenced by G4ContinuousGainOfEnergy::AlongStepDoIt(), G4VEnergyLossProcess::AlongStepDoIt(), G4IonParametrisedLossModel::CorrectionsAlongStep(), G4AtimaEnergyLossModel::CorrectionsAlongStep(), G4BraggIonModel::CorrectionsAlongStep(), G4BetheBlochModel::CorrectionsAlongStep(), G4LindhardSorensenIonModel::CorrectionsAlongStep(), G4BraggModel::GetChargeSquareRatio(), G4VEnergyLossProcess::GetDEDXDispersion(), and G4EmMultiModel::Initialise().

◆ GetName()

const G4String & G4VEmModel::GetName ( ) const

inlineinherited

Definition at line 837 of file G4VEmModel.hh.

{
  return name;
}

References G4VEmModel::name.

Referenced by G4NIELCalculator::AddEmModel(), G4VLEPTSModel::BuildMeanFreePathTable(), G4VLEPTSModel::BuildPhysicsTable(), G4EmCalculator::ComputeDEDX(), G4MuPairProductionModel::DataCorrupted(), G4EmElementSelector::Dump(), G4EmModelManager::DumpModelList(), G4EmCalculator::FindEmModel(), G4NIELCalculator::G4NIELCalculator(), G4EmMultiModel::Initialise(), G4IonParametrisedLossModel::Initialise(), G4EmModelManager::Initialise(), G4IonParametrisedLossModel::PrintDEDXTable(), G4DNAAttachment::PrintInfo(), G4DNAChargeDecrease::PrintInfo(), G4DNAChargeIncrease::PrintInfo(), G4DNADissociation::PrintInfo(), G4DNAElastic::PrintInfo(), G4DNAExcitation::PrintInfo(), G4DNAIonisation::PrintInfo(), G4DNAPlasmonExcitation::PrintInfo(), G4DNAPositronium::PrintInfo(), G4DNARotExcitation::PrintInfo(), G4DNAVibExcitation::PrintInfo(), G4VLEPTSModel::ReadIXS(), G4LossTableManager::Register(), G4DNAModelInterface::RegisterModel(), G4IonParametrisedLossModel::RemoveDEDXTable(), G4VLEPTSModel::SampleEnergyLoss(), G4EmConfigurator::SetExtraEmModel(), G4EmConfigurator::SetModelForRegion(), and G4EmConfigurator::UpdateModelEnergyRange().

◆ GetPartialCrossSection()

G4double G4VEmModel::GetPartialCrossSection	(	const G4Material *	,
		G4int	level,
		const G4ParticleDefinition *	,
		G4double	kineticEnergy
	)

virtualinherited

Reimplemented in G4DNABornExcitationModel1, G4DNABornExcitationModel2, G4DNABornIonisationModel1, G4DNABornIonisationModel2, G4DNAMillerGreenExcitationModel, and G4DNARelativisticIonisationModel.

Definition at line 261 of file G4VEmModel.cc.

{ 
  return 0.0;
}

◆ GetParticleChangeForGamma()

G4ParticleChangeForGamma * G4VEmModel::GetParticleChangeForGamma ( )

protectedinherited

Definition at line 123 of file G4VEmModel.cc.

{
  G4ParticleChangeForGamma* p = nullptr;
  if (pParticleChange != nullptr) {
    p = static_cast<G4ParticleChangeForGamma*>(pParticleChange);
  } else {
    p = new G4ParticleChangeForGamma();
    pParticleChange = p;
  }
  if(fTripletModel != nullptr) { fTripletModel->SetParticleChange(p); }
  return p;
}

References G4VEmModel::fTripletModel, G4VEmModel::pParticleChange, and G4VEmModel::SetParticleChange().

◆ GetParticleChangeForLoss()

G4ParticleChangeForLoss * G4VEmModel::GetParticleChangeForLoss ( )

protectedinherited

Definition at line 108 of file G4VEmModel.cc.

{
  G4ParticleChangeForLoss* p = nullptr;
  if (pParticleChange != nullptr) {
    p = static_cast<G4ParticleChangeForLoss*>(pParticleChange);
  } else {
    p = new G4ParticleChangeForLoss();
    pParticleChange = p;
  }
  if(fTripletModel != nullptr) { fTripletModel->SetParticleChange(p); }
  return p;
}

References G4VEmModel::fTripletModel, G4VEmModel::pParticleChange, and G4VEmModel::SetParticleChange().

◆ GetParticleChangeForMSC()

G4ParticleChangeForMSC * G4VMscModel::GetParticleChangeForMSC ( const G4ParticleDefinition * p = nullptr )

protectedinherited

Definition at line 78 of file G4VMscModel.cc.

{
  // recomputed for each new run
  if(nullptr == safetyHelper) {
    safetyHelper = G4TransportationManager::GetTransportationManager()
      ->GetSafetyHelper();
    safetyHelper->InitialiseHelper();
  }
  G4ParticleChangeForMSC* change = nullptr;
  if (nullptr != pParticleChange) {
    change = static_cast<G4ParticleChangeForMSC*>(pParticleChange);
  } else {
    change = new G4ParticleChangeForMSC();
  }
  if(IsMaster() && nullptr != p) {
 
    // table is always built for low mass particles 
    if(p->GetParticleName() != "GenericIon" &&
       (p->GetPDGMass() < CLHEP::GeV || ForceBuildTableFlag()) ) {
 
      G4EmParameters* param = G4EmParameters::Instance();
      G4LossTableBuilder* builder = 
    G4LossTableManager::Instance()->GetTableBuilder();
      G4double emin = std::max(LowEnergyLimit(), LowEnergyActivationLimit());
      G4double emax = std::min(HighEnergyLimit(), HighEnergyActivationLimit());
      emin = std::max(emin, param->MinKinEnergy());
      emax = std::min(emax, param->MaxKinEnergy());
      if(emin < emax) {
    xSectionTable = builder->BuildTableForModel(xSectionTable, this, p, 
                            emin, emax, true);
      }
    }
  }
  return change;
}

References G4LossTableBuilder::BuildTableForModel(), emax, G4VEmModel::ForceBuildTableFlag(), G4ParticleDefinition::GetParticleName(), G4ParticleDefinition::GetPDGMass(), G4TransportationManager::GetSafetyHelper(), G4LossTableManager::GetTableBuilder(), G4TransportationManager::GetTransportationManager(), CLHEP::GeV, G4VEmModel::HighEnergyActivationLimit(), G4VEmModel::HighEnergyLimit(), G4SafetyHelper::InitialiseHelper(), G4EmParameters::Instance(), G4LossTableManager::Instance(), G4VEmModel::IsMaster(), G4VEmModel::LowEnergyActivationLimit(), G4VEmModel::LowEnergyLimit(), G4INCL::Math::max(), G4EmParameters::MaxKinEnergy(), G4INCL::Math::min(), G4EmParameters::MinKinEnergy(), G4VEmModel::pParticleChange, G4VMscModel::safetyHelper, and G4VEmModel::xSectionTable.

Referenced by G4UrbanAdjointMscModel::Initialise(), G4GoudsmitSaundersonMscModel::Initialise(), G4UrbanMscModel::Initialise(), and G4WentzelVIModel::Initialise().

◆ GetParticleCharge()

G4double G4VEmModel::GetParticleCharge	(	const G4ParticleDefinition *	p,
		const G4Material *	,
		G4double	kineticEnergy
	)

virtualinherited

Reimplemented in G4IonParametrisedLossModel, G4BraggIonGasModel, G4BetheBlochIonGasModel, G4AtimaEnergyLossModel, G4BetheBlochModel, G4BraggIonModel, G4BraggModel, and G4LindhardSorensenIonModel.

Definition at line 391 of file G4VEmModel.cc.

{
  return p->GetPDGCharge();
}

References G4ParticleDefinition::GetPDGCharge().

Referenced by G4VEnergyLossProcess::AlongStepDoIt().

◆ GetRange() [1/2]

G4double G4VMscModel::GetRange	(	const G4ParticleDefinition *	part,
		G4double	kineticEnergy,
		const G4MaterialCutsCouple *	couple
	)

inherited

Definition at line 189 of file G4VMscModel.cc.

{
  //  << ionisation << "  " << part->GetParticleName() << G4endl;
  localtkin = kinEnergy;
  if (nullptr != ionisation) {
    localrange = ionisation->GetRange(kinEnergy, couple);
  } else {
    const G4double q = part->GetPDGCharge()*inveplus;
    localrange = kinEnergy/(dedx*q*q*couple->GetMaterial()->GetDensity());
  }
  //G4cout << "R(mm)= " << localrange << "  "  << ionisation << G4endl;
  return localrange;
}                                                                                                                                                                                                                 

References G4VMscModel::dedx, G4Material::GetDensity(), G4MaterialCutsCouple::GetMaterial(), G4ParticleDefinition::GetPDGCharge(), G4VEnergyLossProcess::GetRange(), G4VEmModel::inveplus, G4VMscModel::ionisation, G4VMscModel::localrange, and G4VMscModel::localtkin.

Referenced by G4VMultipleScattering::AlongStepDoIt(), G4UrbanAdjointMscModel::ComputeTruePathLengthLimit(), ComputeTruePathLengthLimit(), G4GoudsmitSaundersonMscModel::ComputeTruePathLengthLimit(), G4UrbanMscModel::ComputeTruePathLengthLimit(), and G4WentzelVIModel::ComputeTruePathLengthLimit().

◆ GetRange() [2/2]

G4double G4VMscModel::GetRange	(	const G4ParticleDefinition *	part,
		G4double	kineticEnergy,
		const G4MaterialCutsCouple *	couple,
		G4double	logKineticEnergy
	)

inherited

Definition at line 206 of file G4VMscModel.cc.

{
  //G4cout << "G4VMscModel::GetRange E(MeV)= " << kinEnergy << "  "
  //  << ionisation << "  " << part->GetParticleName() << G4endl;
  localtkin = kinEnergy;
  if (nullptr != ionisation) {
    localrange = ionisation->GetRange(kinEnergy, couple, logKinEnergy);
  } else {
    const G4double q = part->GetPDGCharge()*inveplus;
    localrange = kinEnergy/(dedx*q*q*couple->GetMaterial()->GetDensity());
  }
  //G4cout << "R(mm)= " << localrange << "  "  << ionisation << G4endl;
  return localrange;
}                                                                                                                                                                                                                 

References G4VMscModel::dedx, G4Material::GetDensity(), G4MaterialCutsCouple::GetMaterial(), G4ParticleDefinition::GetPDGCharge(), G4VEnergyLossProcess::GetRange(), G4VEmModel::inveplus, G4VMscModel::ionisation, G4VMscModel::localrange, and G4VMscModel::localtkin.

◆ GetSecondMomentTable()

G4PhysicsTable * G4WentzelVIModel::GetSecondMomentTable ( )

inlineinherited

Definition at line 246 of file G4WentzelVIModel.hh.

{
  return fSecondMoments;
}

References G4WentzelVIModel::fSecondMoments.

Referenced by G4WentzelVIModel::InitialiseLocal().

◆ GetTransportMeanFreePath() [1/2]

G4double G4VMscModel::GetTransportMeanFreePath	(	const G4ParticleDefinition *	part,
		G4double	kinEnergy
	)

inlineinherited

Definition at line 319 of file G4VMscModel.hh.

{
  G4double x;
  if (nullptr != xSectionTable) {
    x = pFactor*(*xSectionTable)[basedCoupleIndex]->Value(ekin)/(ekin*ekin);
  } else { 
    x = pFactor*CrossSectionPerVolume(pBaseMaterial, part, ekin, 0.0, DBL_MAX); 
  }
  return (x > 0.0) ? 1.0/x : DBL_MAX;
}

References G4VEmModel::basedCoupleIndex, G4VEmModel::CrossSectionPerVolume(), DBL_MAX, G4VEmModel::pBaseMaterial, G4VEmModel::pFactor, and G4VEmModel::xSectionTable.

Referenced by G4UrbanAdjointMscModel::ComputeGeomPathLength(), G4UrbanMscModel::ComputeGeomPathLength(), G4WentzelVIModel::ComputeGeomPathLength(), G4UrbanAdjointMscModel::ComputeTruePathLengthLimit(), ComputeTruePathLengthLimit(), G4UrbanMscModel::ComputeTruePathLengthLimit(), G4WentzelVIModel::ComputeTruePathLengthLimit(), G4WentzelVIModel::ComputeTrueStepLength(), G4EmCalculator::GetCrossSectionPerVolume(), G4UrbanAdjointMscModel::SampleCosineTheta(), and G4UrbanMscModel::SampleCosineTheta().

◆ GetTransportMeanFreePath() [2/2]

G4double G4VMscModel::GetTransportMeanFreePath	(	const G4ParticleDefinition *	part,
		G4double	kinEnergy,
		G4double	logKinEnergy
	)

inlineinherited

Definition at line 332 of file G4VMscModel.hh.

{
  G4double x;
  if (nullptr != xSectionTable) {
    x = pFactor*(*xSectionTable)[basedCoupleIndex]->LogVectorValue(ekin, logekin)/(ekin*ekin);
  } else { 
    x = pFactor*CrossSectionPerVolume(pBaseMaterial, part, ekin, 0.0, DBL_MAX);
  }
  return (x > 0.0) ? 1.0/x : DBL_MAX;
}

References G4VEmModel::basedCoupleIndex, G4VEmModel::CrossSectionPerVolume(), DBL_MAX, G4VEmModel::pBaseMaterial, G4VEmModel::pFactor, and G4VEmModel::xSectionTable.

◆ GetTripletModel()

G4VEmModel * G4VEmModel::GetTripletModel ( )

inlineinherited

Definition at line 638 of file G4VEmModel.hh.

{
  return fTripletModel;
}

References G4VEmModel::fTripletModel.

Referenced by G4eBremsstrahlungRelModel::Initialise(), G4SeltzerBergerModel::Initialise(), and G4eBremsstrahlungRelModel::SampleSecondaries().

◆ GetWVICrossSection()

G4WentzelOKandVIxSection * G4WentzelVIModel::GetWVICrossSection ( )

inlineinherited

Definition at line 225 of file G4WentzelVIModel.hh.

{
  return wokvi;
}

References G4WentzelVIModel::wokvi.

Referenced by G4WentzelVIRelModel::DefineMaterial().

◆ HighEnergyActivationLimit()

G4double G4VEmModel::HighEnergyActivationLimit ( ) const

inlineinherited

Definition at line 669 of file G4VEmModel.hh.

{
  return eMaxActive;
}

References G4VEmModel::eMaxActive.

Referenced by G4EmModelManager::DumpModelList(), G4VMscModel::GetParticleChangeForMSC(), G4WentzelVIModel::Initialise(), and G4EmModelManager::Initialise().

◆ HighEnergyLimit()

G4double G4VEmModel::HighEnergyLimit ( ) const

inlineinherited

Definition at line 655 of file G4VEmModel.hh.

{
  return highLimit;
}

References G4VEmModel::highLimit.

◆ Initialise()

void G4WentzelVIModel::Initialise	(	const G4ParticleDefinition *	p,
		const G4DataVector &	cuts
	)

overridevirtualinherited

Implements G4VEmModel.

Reimplemented in G4WentzelVIRelModel.

Definition at line 102 of file G4WentzelVIModel.cc.

{
  // reset parameters
  SetupParticle(p);
  InitialiseParameters(p);
  currentRange = 0.0;
 
  if(isCombined) {
    G4double tet = PolarAngleLimit();
    if(tet <= 0.0)           { cosThetaMax = 1.0; }
    else if(tet < CLHEP::pi) { cosThetaMax = cos(tet); }
  }
  //G4cout << "G4WentzelVIModel::Initialise " << p->GetParticleName() 
  //     << " " << this << " " << wokvi << G4endl;
 
  wokvi->Initialise(p, cosThetaMax);
  /* 
  G4cout << "G4WentzelVIModel: " << particle->GetParticleName()
         << "  1-cos(ThetaLimit)= " << 1 - cosThetaMax 
         << " SingScatFactor= " << ssFactor
         << G4endl;
  */
  currentCuts = &cuts;
 
  // set values of some data members
  fParticleChange = GetParticleChangeForMSC(p);
 
  // Access to materials
  const G4ProductionCutsTable* theCoupleTable =
    G4ProductionCutsTable::GetProductionCutsTable();
  size_t numOfCouples = theCoupleTable->GetTableSize();
  nelments = 0;
  for(size_t i=0; i<numOfCouples; ++i) {
    G4int nelm = theCoupleTable->GetMaterialCutsCouple(i)->GetMaterial()->GetNumberOfElements();
    nelments = std::max(nelments, nelm);
  }
  xsecn.resize(nelments);
  prob.resize(nelments);
 
  // build second moment table only if transport table is build
  G4PhysicsTable* table = GetCrossSectionTable();
  if(useSecondMoment && IsMaster() && nullptr != table) {
 
    //G4cout << "### G4WentzelVIModel::Initialise: build 2nd moment table "
    //           << table << G4endl;
    fSecondMoments =  
      G4PhysicsTableHelper::PreparePhysicsTable(fSecondMoments);
 
    G4bool splineFlag = true;
    G4PhysicsVector* aVector = nullptr;
    G4PhysicsVector* bVector = nullptr;
    G4double emin = std::max(LowEnergyLimit(), LowEnergyActivationLimit());
    G4double emax = std::min(HighEnergyLimit(), HighEnergyActivationLimit());
    if(emin < emax) {
      size_t n = G4EmParameters::Instance()->NumberOfBinsPerDecade()
        *G4lrint(std::log10(emax/emin));
      if(n < 3) { n = 3; }
 
      for(size_t i=0; i<numOfCouples; ++i) {
 
        //G4cout<< "i= " << i << " Flag=  " << fSecondMoments->GetFlag(i) 
        //      << G4endl;
        if(fSecondMoments->GetFlag(i)) {
          DefineMaterial(theCoupleTable->GetMaterialCutsCouple(i));
       
          delete (*fSecondMoments)[i];
          if(nullptr == aVector) { 
            aVector = new G4PhysicsLogVector(emin, emax, n, splineFlag);
            bVector = aVector;
          } else {
            bVector = new G4PhysicsVector(*aVector);
          }
          for(size_t j=0; j<n; ++j) {
            G4double e = bVector->Energy(j); 
            bVector->PutValue(j, ComputeSecondMoment(p, e)*e*e);
          }
          if(splineFlag) { bVector->FillSecondDerivatives(); }
          (*fSecondMoments)[i] = bVector;  
        }
      }
    } 
    //G4cout << *fSecondMoments << G4endl;
  }
}

Referenced by G4TablesForExtrapolator::ComputeTrasportXS(), and G4WentzelVIRelModel::Initialise().

◆ InitialiseElementSelectors()

void G4VEmModel::InitialiseElementSelectors	(	const G4ParticleDefinition *	part,
		const G4DataVector &	cuts
	)

inherited

Definition at line 138 of file G4VEmModel.cc.

{
  // using spline for element selectors should be investigated in details
  // because small number of points may provide biased results
  // large number of points requires significant increase of memory
  G4bool spline = false;
  
  //G4cout << "IES: for " << GetName() << " Emin(MeV)= " << lowLimit/MeV 
  //         << " Emax(MeV)= " << highLimit/MeV << G4endl;
  
  // two times less bins because probability functon is normalized 
  // so correspondingly is more smooth
  if(highLimit <= lowLimit) { return; }
 
  G4int nbinsPerDec = G4EmParameters::Instance()->NumberOfBinsPerDecade();
 
  G4ProductionCutsTable* theCoupleTable=
    G4ProductionCutsTable::GetProductionCutsTable();
  G4int numOfCouples = theCoupleTable->GetTableSize();
 
  // prepare vector
  if(!elmSelectors) {
    elmSelectors = new std::vector<G4EmElementSelector*>;
  }
  if(numOfCouples > nSelectors) { 
    for(G4int i=nSelectors; i<numOfCouples; ++i) { 
      elmSelectors->push_back(nullptr); 
    }
    nSelectors = numOfCouples;
  }
 
  // initialise vector
  for(G4int i=0; i<numOfCouples; ++i) {
 
    // no need in element selectors for infinite cuts
    if(cuts[i] == DBL_MAX) { continue; }
   
    auto couple = theCoupleTable->GetMaterialCutsCouple(i); 
    auto material = couple->GetMaterial();
    SetCurrentCouple(couple);
 
    // selector already exist then delete
    delete (*elmSelectors)[i];
 
    G4double emin = std::max(lowLimit, MinPrimaryEnergy(material, part, cuts[i]));
    G4double emax = std::max(highLimit, 10*emin);
    static const G4double invlog106 = 1.0/(6*G4Log(10.));
    G4int nbins = (G4int)(nbinsPerDec*G4Log(emax/emin)*invlog106);
    nbins = std::max(nbins, 3);
 
    (*elmSelectors)[i] = new G4EmElementSelector(this,material,nbins,
                         emin,emax,spline);
    ((*elmSelectors)[i])->Initialise(part, cuts[i]);
    /*      
      G4cout << "G4VEmModel::InitialiseElmSelectors i= " << i 
             << "  "  << part->GetParticleName() 
             << " for " << GetName() << "  cut= " << cuts[i] 
             << "  " << (*elmSelectors)[i] << G4endl;      
      ((*elmSelectors)[i])->Dump(part);
    */
  } 
}

References DBL_MAX, G4VEmModel::elmSelectors, emax, G4Log(), G4ProductionCutsTable::GetMaterialCutsCouple(), G4ProductionCutsTable::GetProductionCutsTable(), G4ProductionCutsTable::GetTableSize(), G4VEmModel::highLimit, G4VEmModel::Initialise(), G4EmParameters::Instance(), G4VEmModel::lowLimit, eplot::material, G4INCL::Math::max(), G4VEmModel::MinPrimaryEnergy(), G4VEmModel::nSelectors, G4EmParameters::NumberOfBinsPerDecade(), and G4VEmModel::SetCurrentCouple().

◆ InitialiseForElement()

void G4VEmModel::InitialiseForElement	(	const G4ParticleDefinition *	,
		G4int	Z
	)

virtualinherited

◆ InitialiseForMaterial()

void G4VEmModel::InitialiseForMaterial	(	const G4ParticleDefinition *	part,
		const G4Material *	material
	)

virtualinherited

Definition at line 209 of file G4VEmModel.cc.

{
  if(material != nullptr) {
    size_t n = material->GetNumberOfElements();
    for(size_t i=0; i<n; ++i) {
      G4int Z = material->GetElement(i)->GetZasInt();
      InitialiseForElement(part, Z);
    }
  }
}

References G4VEmModel::InitialiseForElement(), eplot::material, CLHEP::detail::n, and Z.

Referenced by G4EmCalculator::FindEmModel().

◆ InitialiseLocal()

void G4WentzelVIModel::InitialiseLocal	(	const G4ParticleDefinition *	,
		G4VEmModel *	masterModel
	)

overridevirtualinherited

Reimplemented from G4VEmModel.

Definition at line 190 of file G4WentzelVIModel.cc.

{
  fSecondMoments = static_cast<G4WentzelVIModel*>(masterModel)
    ->GetSecondMomentTable(); 
}

References G4WentzelVIModel::fSecondMoments, and G4WentzelVIModel::GetSecondMomentTable().

◆ InitialiseParameters()

void G4VMscModel::InitialiseParameters ( const G4ParticleDefinition * part )

inherited

Definition at line 116 of file G4VMscModel.cc.

{
  if(IsLocked()) { return; }
  G4EmParameters* param = G4EmParameters::Instance();
  if(std::abs(part->GetPDGEncoding()) == 11) {
    steppingAlgorithm = param->MscStepLimitType(); 
    facrange = param->MscRangeFactor(); 
    latDisplasment = param->LateralDisplacement();
  } else {
    steppingAlgorithm = param->MscMuHadStepLimitType(); 
    facrange = param->MscMuHadRangeFactor(); 
    latDisplasment = param->MuHadLateralDisplacement();
  }
  skin = param->MscSkin();
  facgeom = param->MscGeomFactor();
  facsafety = param->MscSafetyFactor();
  lambdalimit = param->MscLambdaLimit();
}

Referenced by G4GoudsmitSaundersonMscModel::Initialise(), G4UrbanMscModel::Initialise(), and G4WentzelVIModel::Initialise().

◆ IsActive()

G4bool G4VEmModel::IsActive ( G4double kinEnergy ) const

inlineinherited

Definition at line 795 of file G4VEmModel.hh.

{
  return (kinEnergy >= eMinActive && kinEnergy <= eMaxActive);
}

References G4VEmModel::eMaxActive, and G4VEmModel::eMinActive.

Referenced by G4VEnergyLossProcess::AlongStepDoIt(), G4NuclearStopping::AlongStepDoIt(), G4VMultipleScattering::AlongStepGetPhysicalInteractionLength(), G4VEnergyLossProcess::AlongStepGetPhysicalInteractionLength(), G4VEmProcess::PostStepDoIt(), G4VEnergyLossProcess::PostStepDoIt(), G4VEmProcess::PostStepGetPhysicalInteractionLength(), and G4VEnergyLossProcess::PostStepGetPhysicalInteractionLength().

◆ IsLocked()

G4bool G4VEmModel::IsLocked ( ) const

inlineinherited

Definition at line 877 of file G4VEmModel.hh.

{
  return isLocked;
}

References G4VEmModel::isLocked.

Referenced by G4VMscModel::InitialiseParameters(), G4VMscModel::SetGeomFactor(), G4VMscModel::SetLambdaLimit(), G4VMscModel::SetLateralDisplasmentFlag(), G4VMscModel::SetRangeFactor(), G4VMscModel::SetSafetyFactor(), G4VMscModel::SetSampleZ(), G4VMscModel::SetSkin(), and G4VMscModel::SetStepLimitType().

◆ IsMaster()

G4bool G4VEmModel::IsMaster ( ) const

inlineinherited

Definition at line 746 of file G4VEmModel.hh.

{
  return isMaster;
}

References G4VEmModel::isMaster.

◆ LowEnergyActivationLimit()

G4double G4VEmModel::LowEnergyActivationLimit ( ) const

inlineinherited

Definition at line 676 of file G4VEmModel.hh.

{
  return eMinActive;
}

References G4VEmModel::eMinActive.

Referenced by G4EmModelManager::DumpModelList(), G4VMscModel::GetParticleChangeForMSC(), G4WentzelVIModel::Initialise(), and G4EmModelManager::Initialise().

◆ LowEnergyLimit()

G4double G4VEmModel::LowEnergyLimit ( ) const

inlineinherited

Definition at line 662 of file G4VEmModel.hh.

{
  return lowLimit;
}

References G4VEmModel::lowLimit.

◆ LPMFlag()

G4bool G4VEmModel::LPMFlag ( ) const

inlineinherited

Definition at line 697 of file G4VEmModel.hh.

{
  return theLPMflag;
}

References G4VEmModel::theLPMflag.

Referenced by G4eBremsstrahlungRelModel::Initialise(), G4eBremsstrahlungRelModel::SetupForMaterial(), G4SeltzerBergerModel::SetupForMaterial(), and G4eBremsstrahlungRelModel::~G4eBremsstrahlungRelModel().

◆ MaxSecondaryEnergy()

G4double G4VEmModel::MaxSecondaryEnergy	(	const G4ParticleDefinition *	,
		G4double	kineticEnergy
	)

protectedvirtualinherited

Reimplemented in G4BraggIonModel, G4BraggModel, G4ICRU73QOModel, G4MollerBhabhaModel, G4PAIModel, G4PAIPhotModel, G4mplIonisationWithDeltaModel, G4MuBetheBlochModel, G4AtimaEnergyLossModel, G4BetheBlochModel, G4LindhardSorensenIonModel, and G4IonParametrisedLossModel.

Definition at line 432 of file G4VEmModel.cc.

{
  return kineticEnergy;
}

Referenced by G4VEmModel::MaxSecondaryKinEnergy().

◆ MaxSecondaryKinEnergy()

G4double G4VEmModel::MaxSecondaryKinEnergy ( const G4DynamicParticle * dynParticle )

inlineinherited

Definition at line 520 of file G4VEmModel.hh.

{
  return MaxSecondaryEnergy(dynPart->GetParticleDefinition(),
                            dynPart->GetKineticEnergy());
}

References G4DynamicParticle::GetKineticEnergy(), G4DynamicParticle::GetParticleDefinition(), and G4VEmModel::MaxSecondaryEnergy().

Referenced by G4ContinuousGainOfEnergy::AlongStepDoIt(), G4VEnergyLossProcess::AlongStepDoIt(), G4VEnergyLossProcess::GetDEDXDispersion(), G4MuBetheBlochModel::SampleSecondaries(), G4PolarizedIonisationModel::SampleSecondaries(), G4BraggIonModel::SampleSecondaries(), G4BraggModel::SampleSecondaries(), G4ICRU73QOModel::SampleSecondaries(), and G4IonParametrisedLossModel::SampleSecondaries().

◆ MinEnergyCut()

G4double G4VEmModel::MinEnergyCut	(	const G4ParticleDefinition *	,
		const G4MaterialCutsCouple *
	)

virtualinherited

Reimplemented in G4IonParametrisedLossModel, G4PenelopeBremsstrahlungModel, G4PenelopeIonisationModel, G4MuBetheBlochModel, G4MuBremsstrahlungModel, G4eBremParametrizedModel, G4PAIModel, G4PAIPhotModel, G4mplIonisationWithDeltaModel, G4AtimaEnergyLossModel, G4BetheBlochModel, G4BraggIonModel, G4BraggModel, and G4LindhardSorensenIonModel.

Definition at line 424 of file G4VEmModel.cc.

{
  return 0.0;
}

Referenced by G4EmModelManager::Initialise().

◆ MinPrimaryEnergy()

G4double G4VEmModel::MinPrimaryEnergy	(	const G4Material *	,
		const G4ParticleDefinition *	,
		G4double	cut = `0.0`
	)

virtualinherited

Reimplemented in G4eBremsstrahlungRelModel, G4BoldyshevTripletModel, G4eCoulombScatteringModel, G4hCoulombScatteringModel, G4LivermoreNuclearGammaConversionModel, G4LivermorePolarizedGammaConversionModel, G4MuBremsstrahlungModel, G4MuPairProductionModel, and G4eDPWACoulombScatteringModel.

Definition at line 415 of file G4VEmModel.cc.

{
  return 0.0;
}

Referenced by G4LossTableBuilder::BuildTableForModel(), and G4VEmModel::InitialiseElementSelectors().

◆ ModelDescription()

void G4VEmModel::ModelDescription ( std::ostream & outFile ) const

virtualinherited

Reimplemented in G4eeToHadronsMultiModel.

Definition at line 469 of file G4VEmModel.cc.

{
  outFile << "The description for this model has not been written yet.\n";
}

◆ operator=()

G4LowEWentzelVIModel & G4LowEWentzelVIModel::operator= ( const G4LowEWentzelVIModel & right )

delete

◆ PolarAngleLimit()

G4double G4VEmModel::PolarAngleLimit ( ) const

inlineinherited

Definition at line 683 of file G4VEmModel.hh.

{
  return polarAngleLimit;
}

References G4VEmModel::polarAngleLimit.

Referenced by G4eCoulombScatteringModel::Initialise(), G4eDPWACoulombScatteringModel::Initialise(), G4hCoulombScatteringModel::Initialise(), and G4WentzelVIModel::Initialise().

◆ SampleScattering()

G4ThreeVector & G4WentzelVIModel::SampleScattering	(	const G4ThreeVector &	oldDirection,
		G4double	safety
	)

overridevirtualinherited

Implements G4VMscModel.

Definition at line 494 of file G4WentzelVIModel.cc.

{
  fDisplacement.set(0.0,0.0,0.0);
  //G4cout << "!##! G4WentzelVIModel::SampleScattering for " 
  //         << particle->GetParticleName() << G4endl;
 
  // ignore scattering for zero step length and energy below the limit
  if(preKinEnergy < lowEnergyLimit || tPathLength <= 0.0) 
    { return fDisplacement; }
  
  G4double invlambda = 0.0;
  if(lambdaeff < DBL_MAX) { invlambda = 0.5/lambdaeff; }
 
  // use average kinetic energy over the step
  G4double cut = (*currentCuts)[currentMaterialIndex];
  if(fixedCut > 0.0) { cut = fixedCut; }
  /*  
  G4cout <<"SampleScat: E0(MeV)= "<< preKinEnergy/MeV
           << " Leff= " << lambdaeff <<" sig0(1/mm)= " << xtsec 
          << " xmsc= " <<  tPathLength*invlambda 
         << " safety= " << safety << G4endl;
  */
  // step limit due msc
  G4int nMscSteps = 1;
  G4double x0 = tPathLength;
  G4double z0 = x0*invlambda;
  //G4double zzz = 0.0;
  G4double prob2 = 0.0;
 
  CLHEP::HepRandomEngine* rndmEngine = G4Random::getTheEngine();
 
  // large scattering angle case - two step approach
  if(!singleScatteringMode) {
    static const G4double zzmin = 0.05;
    if(useSecondMoment) { 
      G4double z1 = invlambda*invlambda;
      G4double z2 = SecondMoment(particle, currentCouple, effKinEnergy);
      prob2 = (z2 - z1)/(1.5*z1 - z2);
    }
    //    if(z0 > zzmin && safety > tlimitminfix) { 
    if(z0 > zzmin) { 
      x0 *= 0.5; 
      z0 *= 0.5;
      nMscSteps = 2;
    } 
    //if(z0 > zzmin) { zzz = G4Exp(-1.0/z0); }
    G4double zzz = 0.0;
    if(z0 > zzmin) { 
      zzz = G4Exp(-1.0/z0); 
      z0 += zzz; 
      prob2 *= (1 + zzz);
    }
    prob2 /= (1 + prob2);
  } 
 
  // step limit due to single scattering
  G4double x1 = 2*tPathLength;
  if(0.0 < xtsec) { x1 = -G4Log(rndmEngine->flat())/xtsec; }
 
  // no scattering case
  if(singleScatteringMode && x1 > tPathLength)  
    { return fDisplacement; }
 
  const G4ElementVector* theElementVector = 
    currentMaterial->GetElementVector();
  G4int nelm = currentMaterial->GetNumberOfElements();
 
  // geometry
  G4double sint, cost, phi;
  G4ThreeVector temp(0.0,0.0,1.0);
 
  // current position and direction relative to the end point
  // because of magnetic field geometry is computed relatively to the 
  // end point of the step 
  G4ThreeVector dir(0.0,0.0,1.0);
  fDisplacement.set(0.0,0.0,-zPathLength);
 
  G4double mscfac = zPathLength/tPathLength;
 
  // start a loop 
  G4double x2 = x0;
  G4double step, z;
  G4bool singleScat;
  /*   
    G4cout << "Start of the loop x1(mm)= " << x1 << "  x2(mm)= " << x2 
    << " 1-cost1= " << 1 - cosThetaMin << " SSmode= " << singleScatteringMode 
           << " xtsec= " << xtsec << " Nst= "  << nMscSteps << G4endl;
  */
  do {
 
    //G4cout << "# x1(mm)= "<< x1<< " x2(mm)= "<< x2 << G4endl;
    // single scattering case
    if(singleScatteringMode && x1 > x2) { 
      fDisplacement += x2*mscfac*dir;
      break; 
    }
 
    // what is next single of multiple?
    if(x1 <= x2) { 
      step = x1;
      singleScat = true;
    } else {
      step = x2;
      singleScat = false;
    }
 
    //G4cout << "# step(mm)= "<< step<< "  singlScat= "<< singleScat << G4endl;
 
    // new position
    fDisplacement += step*mscfac*dir;
 
    if(singleScat) {
 
      // select element
      G4int i = 0;
      if(nelm > 1) {
        G4double qsec = rndmEngine->flat()*xtsec;
        for (; i<nelm; ++i) { if(xsecn[i] >= qsec) { break; } }
      }
      G4double cosTetM = 
        wokvi->SetupTarget((*theElementVector)[i]->GetZasInt(), cut);
      //G4cout << "!!! " << cosThetaMin << "  " << cosTetM << "  " 
      //     << prob[i] << G4endl;
      temp = wokvi->SampleSingleScattering(cosThetaMin, cosTetM, prob[i]);
 
      // direction is changed
      temp.rotateUz(dir);
      dir = temp;
      //G4cout << dir << G4endl;
 
      // new proposed step length
      x2 -= step; 
      x1  = -G4Log(rndmEngine->flat())/xtsec; 
 
    // multiple scattering
    } else { 
      --nMscSteps;
      x1 -= step;
      x2  = x0;
 
      // sample z in interval 0 - 1
      G4bool isFirst = true;
      if(prob2 > 0.0 && rndmEngine->flat() < prob2) { isFirst = false; } 
      do {
        //z = -z0*G4Log(1.0 - (1.0 - zzz)*rndmEngine->flat());
        if(isFirst) { z = -G4Log(rndmEngine->flat()); }
        else        { z = G4RandGamma::shoot(rndmEngine, 2.0, 2.0); }
        z *= z0;
        // Loop checking, 03-Aug-2015, Vladimir Ivanchenko
      } while(z > 1.0);
 
      cost = 1.0 - 2.0*z/*factCM*/;
      if(cost > 1.0)       { cost = 1.0; }
      else if(cost < -1.0) { cost =-1.0; }
      sint = sqrt((1.0 - cost)*(1.0 + cost));
      phi  = twopi*rndmEngine->flat();
      G4double vx1 = sint*cos(phi);
      G4double vy1 = sint*sin(phi);
 
      // lateral displacement  
      if (latDisplasment) {
        G4double rms = invsqrt12*sqrt(2*z0);
        G4double r  = x0*mscfac;
        G4double dx = r*(0.5*vx1 + rms*G4RandGauss::shoot(rndmEngine,0.0,1.0));
        G4double dy = r*(0.5*vy1 + rms*G4RandGauss::shoot(rndmEngine,0.0,1.0));
        G4double d  = r*r - dx*dx - dy*dy;
 
        // change position
        if(d >= 0.0)  { 
          temp.set(dx,dy,sqrt(d) - r);
          temp.rotateUz(dir); 
          fDisplacement += temp;
        }
      }
      // change direction
      temp.set(vx1,vy1,cost);
      temp.rotateUz(dir);
      dir = temp;
    }
    // Loop checking, 03-Aug-2015, Vladimir Ivanchenko
  } while (0 < nMscSteps);
    
  dir.rotateUz(oldDirection);
 
  //G4cout<<"G4WentzelVIModel sampling is done 1-cost= "<< 1.-dir.z()<<G4endl;
  // end of sampling -------------------------------
 
  fParticleChange->ProposeMomentumDirection(dir);
 
  // lateral displacement  
  fDisplacement.rotateUz(oldDirection);
 
  /*
         G4cout << " r(mm)= " << fDisplacement.mag() 
                << " safety= " << safety
                << " trueStep(mm)= " << tPathLength
                << " geomStep(mm)= " << zPathLength
                << " x= " << fDisplacement.x() 
                << " y= " << fDisplacement.y() 
                << " z= " << fDisplacement.z()
                << G4endl;
  */
 
  //G4cout<< "G4WentzelVIModel::SampleScattering end NewDir= " << dir<< G4endl;
  return fDisplacement;
}

◆ SampleSecondaries()

void G4VMscModel::SampleSecondaries	(	std::vector< G4DynamicParticle * > *	,
		const G4MaterialCutsCouple *	,
		const G4DynamicParticle *	,
		G4double	tmin,
		G4double	tmax
	)

overridevirtualinherited

Implements G4VEmModel.

Definition at line 151 of file G4VMscModel.cc.

155{}

◆ SecondaryThreshold()

G4double G4VEmModel::SecondaryThreshold ( ) const

inlineinherited

Definition at line 690 of file G4VEmModel.hh.

{
  return secondaryThreshold;
}

References G4VEmModel::secondaryThreshold.

Referenced by G4LivermoreBremsstrahlungModel::SampleSecondaries(), G4eBremParametrizedModel::SampleSecondaries(), G4eBremsstrahlungRelModel::SampleSecondaries(), G4SeltzerBergerModel::SampleSecondaries(), G4MuBremsstrahlungModel::SampleSecondaries(), and G4MuPairProductionModel::SampleSecondaries().

◆ SecondMoment()

G4double G4WentzelVIModel::SecondMoment	(	const G4ParticleDefinition *	part,
		const G4MaterialCutsCouple *	couple,
		G4double	kineticEnergy
	)

inlineinherited

Definition at line 254 of file G4WentzelVIModel.hh.

{
  G4double x = 0.0;
  if(useSecondMoment) { 
    DefineMaterial(couple);
    x = (fSecondMoments) ?  
      (*fSecondMoments)[(*theDensityIdx)[currentMaterialIndex]]->Value(ekin, idx2)
      *(*theDensityFactor)[currentMaterialIndex]/(ekin*ekin)
      : ComputeSecondMoment(part, ekin);
  }
  return x;
}

References G4WentzelVIModel::ComputeSecondMoment(), G4WentzelVIModel::currentMaterialIndex, G4WentzelVIModel::DefineMaterial(), G4WentzelVIModel::fSecondMoments, G4WentzelVIModel::idx2, and G4WentzelVIModel::useSecondMoment.

Referenced by G4WentzelVIModel::SampleScattering().

◆ SelectIsotopeNumber()

G4int G4VEmModel::SelectIsotopeNumber ( const G4Element * elm )

inherited

Definition at line 319 of file G4VEmModel.cc.

{
  SetCurrentElement(elm);
  const size_t ni = elm->GetNumberOfIsotopes();
  fCurrentIsotope = elm->GetIsotope(0);
  size_t idx = 0;
  if(ni > 1) {
    const G4double* ab = elm->GetRelativeAbundanceVector();
    G4double x = G4UniformRand();
    for(; idx<ni; ++idx) {
      x -= ab[idx];
      if (x <= 0.0) { 
    fCurrentIsotope = elm->GetIsotope(idx);
    break; 
      }
    }
  }
  return fCurrentIsotope->GetN();
}

References ab, G4VEmModel::fCurrentIsotope, G4UniformRand, G4Element::GetIsotope(), G4Isotope::GetN(), G4Element::GetNumberOfIsotopes(), G4Element::GetRelativeAbundanceVector(), and G4VEmModel::SetCurrentElement().

Referenced by G4eSingleCoulombScatteringModel::SampleSecondaries(), G4IonCoulombScatteringModel::SampleSecondaries(), G4eCoulombScatteringModel::SampleSecondaries(), G4hCoulombScatteringModel::SampleSecondaries(), and G4BetheHeitler5DModel::SampleSecondaries().

◆ SelectRandomAtom() [1/2]

const G4Element * G4VEmModel::SelectRandomAtom	(	const G4Material *	mat,
		const G4ParticleDefinition *	pd,
		G4double	kineticEnergy,
		G4double	cutEnergy = `0.0`,
		G4double	maxEnergy = `DBL_MAX`
	)

inherited

Definition at line 275 of file G4VEmModel.cc.

{
  size_t n = mat->GetNumberOfElements();
  fCurrentElement = mat->GetElement(0);
  if (n > 1) {
    const G4double x = G4UniformRand()*
      G4VEmModel::CrossSectionPerVolume(mat,pd,kinEnergy,tcut,tmax);
    for(size_t i=0; i<n; ++i) {
      if (x <= xsec[i]) {
        fCurrentElement = mat->GetElement(i);
        break;
      }
    }
  }
  return fCurrentElement;
}

References G4VEmModel::CrossSectionPerVolume(), G4VEmModel::fCurrentElement, G4UniformRand, G4Material::GetElement(), G4Material::GetNumberOfElements(), CLHEP::detail::n, and G4VEmModel::xsec.

◆ SelectRandomAtom() [2/2]

const G4Element * G4VEmModel::SelectRandomAtom	(	const G4MaterialCutsCouple *	couple,
		const G4ParticleDefinition *	part,
		G4double	kineticEnergy,
		G4double	cutEnergy = `0.0`,
		G4double	maxEnergy = `DBL_MAX`
	)

inlineinherited

Definition at line 580 of file G4VEmModel.hh.

{
  SetCurrentCouple(couple);
  fCurrentElement = (nSelectors > 0) ?
    ((*elmSelectors)[couple->GetIndex()])->SelectRandomAtom(kinEnergy) :
    SelectRandomAtom(pBaseMaterial,part,kinEnergy,cutEnergy,maxEnergy);
  fCurrentIsotope = nullptr;
  return fCurrentElement;
}

References G4VEmModel::elmSelectors, G4VEmModel::fCurrentElement, G4VEmModel::fCurrentIsotope, G4MaterialCutsCouple::GetIndex(), G4VEmModel::nSelectors, G4VEmModel::pBaseMaterial, G4VEmModel::SelectRandomAtom(), and G4VEmModel::SetCurrentCouple().

◆ SelectRandomAtomNumber()

G4int G4VEmModel::SelectRandomAtomNumber ( const G4Material * mat )

inherited

Definition at line 297 of file G4VEmModel.cc.

{
  // this algorith assumes that cross section is proportional to
  // number electrons multiplied by number of atoms
  const size_t nn = mat->GetNumberOfElements();
  fCurrentElement = mat->GetElement(0);
  if(1 < nn) {
    const G4double* at = mat->GetVecNbOfAtomsPerVolume();
    G4double tot = mat->GetTotNbOfAtomsPerVolume()*G4UniformRand();
    for(size_t i=0; i<nn; ++i) {
      tot -= at[i];
      if(tot <= 0.0) { 
    fCurrentElement = mat->GetElement(i);
    break; 
      }
    }
  }
  return fCurrentElement->GetZasInt();
}

References G4VEmModel::fCurrentElement, G4UniformRand, G4Material::GetElement(), G4Material::GetNumberOfElements(), G4Material::GetTotNbOfAtomsPerVolume(), G4Material::GetVecNbOfAtomsPerVolume(), G4Element::GetZasInt(), and G4InuclParticleNames::nn.

Referenced by G4AtimaEnergyLossModel::SampleSecondaries(), G4BetheBlochModel::SampleSecondaries(), G4BraggIonModel::SampleSecondaries(), G4BraggModel::SampleSecondaries(), G4ICRU73QOModel::SampleSecondaries(), G4LindhardSorensenIonModel::SampleSecondaries(), G4MollerBhabhaModel::SampleSecondaries(), and G4IonParametrisedLossModel::SampleSecondaries().

◆ SelectTargetAtom()

const G4Element * G4VEmModel::SelectTargetAtom	(	const G4MaterialCutsCouple *	couple,
		const G4ParticleDefinition *	part,
		G4double	kineticEnergy,
		G4double	logKineticEnergy,
		G4double	cutEnergy = `0.0`,
		G4double	maxEnergy = `DBL_MAX`
	)

inlineinherited

Definition at line 597 of file G4VEmModel.hh.

{
  SetCurrentCouple(couple);
  fCurrentElement = (nSelectors > 0)
   ? ((*elmSelectors)[couple->GetIndex()])->SelectRandomAtom(kinEnergy,logKinE)
   : SelectRandomAtom(pBaseMaterial,part,kinEnergy,cutEnergy,maxEnergy);
  fCurrentIsotope = nullptr;
  return fCurrentElement;
}

References G4VEmModel::elmSelectors, G4VEmModel::fCurrentElement, G4VEmModel::fCurrentIsotope, G4MaterialCutsCouple::GetIndex(), G4VEmModel::nSelectors, G4VEmModel::pBaseMaterial, G4VEmModel::SelectRandomAtom(), and G4VEmModel::SetCurrentCouple().

◆ SetActivationHighEnergyLimit()

void G4VEmModel::SetActivationHighEnergyLimit ( G4double val )

inlineinherited

Definition at line 781 of file G4VEmModel.hh.

{
  eMaxActive = val;
}

References G4VEmModel::eMaxActive.

Referenced by G4EmModelActivator::ActivateMicroElec(), G4EmDNAPhysics_option7::ConstructProcess(), G4EmDNAPhysics_option8::ConstructProcess(), G4NuclearStopping::InitialiseProcess(), and G4EmConfigurator::SetExtraEmModel().

◆ SetActivationLowEnergyLimit()

void G4VEmModel::SetActivationLowEnergyLimit ( G4double val )

inlineinherited

Definition at line 788 of file G4VEmModel.hh.

{
  eMinActive = val;
}

References G4VEmModel::eMinActive.

◆ SetAngularDistribution()

void G4VEmModel::SetAngularDistribution ( G4VEmAngularDistribution * p )

inlineinherited

Definition at line 628 of file G4VEmModel.hh.

{
  if(p != anglModel) {
    delete anglModel;
    anglModel = p;
  }
}

References G4VEmModel::anglModel.

Referenced by G4EmLivermorePhysics::ConstructProcess(), G4EmLowEPPhysics::ConstructProcess(), G4EmStandardPhysics::ConstructProcess(), G4EmStandardPhysics_option3::ConstructProcess(), G4EmStandardPhysics_option4::ConstructProcess(), G4EmStandardPhysicsSS::ConstructProcess(), G4BetheHeitlerModel::G4BetheHeitlerModel(), G4DNABornIonisationModel1::G4DNABornIonisationModel1(), G4DNABornIonisationModel2::G4DNABornIonisationModel2(), G4DNAEmfietzoglouIonisationModel::G4DNAEmfietzoglouIonisationModel(), G4DNARuddIonisationExtendedModel::G4DNARuddIonisationExtendedModel(), G4DNARuddIonisationModel::G4DNARuddIonisationModel(), G4eBremParametrizedModel::G4eBremParametrizedModel(), G4eBremsstrahlungRelModel::G4eBremsstrahlungRelModel(), G4IonParametrisedLossModel::G4IonParametrisedLossModel(), G4LivermoreBremsstrahlungModel::G4LivermoreBremsstrahlungModel(), G4LivermoreIonisationModel::G4LivermoreIonisationModel(), G4LivermorePhotoElectricModel::G4LivermorePhotoElectricModel(), G4LivermoreRayleighModel::G4LivermoreRayleighModel(), G4MicroElecInelasticModel::G4MicroElecInelasticModel(), G4MicroElecInelasticModel_new::G4MicroElecInelasticModel_new(), G4MuBremsstrahlungModel::G4MuBremsstrahlungModel(), G4MuPairProductionModel::G4MuPairProductionModel(), G4PAIModel::G4PAIModel(), G4PAIPhotModel::G4PAIPhotModel(), G4PairProductionRelModel::G4PairProductionRelModel(), G4PEEffectFluoModel::G4PEEffectFluoModel(), G4SeltzerBergerModel::G4SeltzerBergerModel(), G4AtimaEnergyLossModel::Initialise(), G4BetheBlochModel::Initialise(), G4BraggIonModel::Initialise(), G4BraggModel::Initialise(), G4ICRU73QOModel::Initialise(), G4LindhardSorensenIonModel::Initialise(), and G4MollerBhabhaModel::Initialise().

◆ SetAngularGeneratorFlag()

void G4VEmModel::SetAngularGeneratorFlag ( G4bool val )

inlineinherited

Definition at line 725 of file G4VEmModel.hh.

{
  useAngularGenerator = val;
}

References G4VEmModel::useAngularGenerator.

Referenced by G4VEnergyLossProcess::PreparePhysicsTable().

◆ SetCrossSectionTable()

void G4VEmModel::SetCrossSectionTable	(	G4PhysicsTable *	p,
		G4bool	isLocal
	)

inherited

Definition at line 455 of file G4VEmModel.cc.

{
  if(p != xSectionTable) {
    if(xSectionTable != nullptr && localTable) { 
      xSectionTable->clearAndDestroy(); 
      delete xSectionTable;
    }
    xSectionTable = p;
  }
  localTable = isLocal;
}

References G4PhysicsTable::clearAndDestroy(), G4VEmModel::localTable, and G4VEmModel::xSectionTable.

Referenced by G4VMultipleScattering::BuildPhysicsTable().

◆ SetCurrentCouple()

void G4VEmModel::SetCurrentCouple ( const G4MaterialCutsCouple * ptr )

inlineinherited

Definition at line 472 of file G4VEmModel.hh.

{
  if(fCurrentCouple != ptr) {
    fCurrentCouple = ptr;
    basedCoupleIndex = currentCoupleIndex = ptr->GetIndex();
    pBaseMaterial = ptr->GetMaterial();
    pFactor = 1.0;
    if(useBaseMaterials) {
      basedCoupleIndex = (*theDensityIdx)[currentCoupleIndex];
      if(nullptr != pBaseMaterial->GetBaseMaterial()) 
    pBaseMaterial = pBaseMaterial->GetBaseMaterial();
      pFactor = (*theDensityFactor)[currentCoupleIndex];
    }
  }
}

References G4VEmModel::basedCoupleIndex, G4VEmModel::currentCoupleIndex, G4VEmModel::fCurrentCouple, G4Material::GetBaseMaterial(), G4MaterialCutsCouple::GetIndex(), G4MaterialCutsCouple::GetMaterial(), G4VEmModel::pBaseMaterial, G4VEmModel::pFactor, and G4VEmModel::useBaseMaterials.

Referenced by G4VMultipleScattering::AlongStepGetPhysicalInteractionLength(), G4EmMultiModel::ComputeCrossSectionPerAtom(), G4VEmModel::ComputeDEDX(), G4TablesForExtrapolator::ComputeTrasportXS(), G4UrbanAdjointMscModel::ComputeTruePathLengthLimit(), G4GoudsmitSaundersonMscModel::ComputeTruePathLengthLimit(), G4UrbanMscModel::ComputeTruePathLengthLimit(), G4VEmModel::CrossSection(), G4AdjointPhotoElectricModel::DefineCurrentMaterialAndElectronEnergy(), G4WentzelVIModel::DefineMaterial(), G4WentzelVIRelModel::DefineMaterial(), G4EmCalculator::GetCrossSectionPerVolume(), G4LivermoreGammaConversion5DModel::Initialise(), G4VEmModel::InitialiseElementSelectors(), G4PEEffectFluoModel::SampleSecondaries(), G4EmMultiModel::SampleSecondaries(), G4VEnergyLossProcess::SelectModel(), G4VEmProcess::SelectModel(), G4VEmModel::SelectRandomAtom(), G4VEmModel::SelectTargetAtom(), and G4VEmModel::Value().

◆ SetCurrentElement()

void G4VEmModel::SetCurrentElement ( const G4Element * elm )

inlineprotectedinherited

Definition at line 497 of file G4VEmModel.hh.

{
  fCurrentElement = elm;
  fCurrentIsotope = nullptr;
}

References G4VEmModel::fCurrentElement, and G4VEmModel::fCurrentIsotope.

Referenced by G4VEmModel::ComputeCrossSectionPerAtom(), G4eBremsstrahlungRelModel::ComputeDEDXPerVolume(), G4eBremParametrizedModel::ComputeDEDXPerVolume(), and G4VEmModel::SelectIsotopeNumber().

◆ SetDeexcitationFlag()

void G4VEmModel::SetDeexcitationFlag ( G4bool val )

inlineinherited

Definition at line 823 of file G4VEmModel.hh.

{
  flagDeexcitation = val;
}

References G4VEmModel::flagDeexcitation.

Referenced by G4DNABornIonisationModel1::G4DNABornIonisationModel1(), G4DNABornIonisationModel2::G4DNABornIonisationModel2(), G4DNACPA100IonisationModel::G4DNACPA100IonisationModel(), G4DNAEmfietzoglouIonisationModel::G4DNAEmfietzoglouIonisationModel(), G4DNARelativisticIonisationModel::G4DNARelativisticIonisationModel(), G4DNARuddIonisationExtendedModel::G4DNARuddIonisationExtendedModel(), G4DNARuddIonisationModel::G4DNARuddIonisationModel(), G4KleinNishinaModel::G4KleinNishinaModel(), G4LEPTSIonisationModel::G4LEPTSIonisationModel(), G4LivermoreComptonModel::G4LivermoreComptonModel(), G4LivermorePhotoElectricModel::G4LivermorePhotoElectricModel(), G4LivermorePolarizedComptonModel::G4LivermorePolarizedComptonModel(), G4LowEPComptonModel::G4LowEPComptonModel(), G4LowEPPolarizedComptonModel::G4LowEPPolarizedComptonModel(), G4MicroElecInelasticModel::G4MicroElecInelasticModel(), G4MicroElecInelasticModel_new::G4MicroElecInelasticModel_new(), G4PEEffectFluoModel::G4PEEffectFluoModel(), G4PenelopeBremsstrahlungModel::G4PenelopeBremsstrahlungModel(), G4PenelopeComptonModel::G4PenelopeComptonModel(), G4PenelopeIonisationModel::G4PenelopeIonisationModel(), G4PenelopePhotoElectricModel::G4PenelopePhotoElectricModel(), G4AtimaEnergyLossModel::Initialise(), G4BetheBlochModel::Initialise(), G4BraggIonModel::Initialise(), G4BraggModel::Initialise(), G4ICRU73QOModel::Initialise(), and G4LindhardSorensenIonModel::Initialise().

◆ SetElementSelectors()

void G4VEmModel::SetElementSelectors ( std::vector< G4EmElementSelector * > * p )

inlineinherited

Definition at line 852 of file G4VEmModel.hh.

{
  if(p != elmSelectors) {
    elmSelectors = p;
    nSelectors = (nullptr != elmSelectors) ? G4int(elmSelectors->size()) : 0;
    localElmSelectors = false;
  }
}

References G4VEmModel::elmSelectors, G4VEmModel::localElmSelectors, and G4VEmModel::nSelectors.

◆ SetFixedCut()

void G4WentzelVIModel::SetFixedCut ( G4double val )

inlineinherited

Definition at line 201 of file G4WentzelVIModel.hh.

{
  fixedCut = val;
}

References G4WentzelVIModel::fixedCut.

◆ SetFluctuationFlag()

void G4VEmModel::SetFluctuationFlag ( G4bool val )

inlineinherited

Definition at line 732 of file G4VEmModel.hh.

{
  lossFlucFlag = val;
}

References G4VEmModel::lossFlucFlag.

Referenced by G4EmCalculator::ComputeNuclearDEDX().

◆ SetForceBuildTable()

void G4VEmModel::SetForceBuildTable ( G4bool val )

inlineinherited

Definition at line 830 of file G4VEmModel.hh.

{
  flagForceBuildTable = val;
}

References G4VEmModel::flagForceBuildTable.

◆ SetGeomFactor()

void G4VMscModel::SetGeomFactor ( G4double val )

inlineinherited

Definition at line 237 of file G4VMscModel.hh.

{
  if(!IsLocked()) { facgeom = val; }
}

References G4VMscModel::facgeom, and G4VEmModel::IsLocked().

◆ SetHighEnergyLimit()

void G4VEmModel::SetHighEnergyLimit ( G4double val )

inlineinherited

Definition at line 767 of file G4VEmModel.hh.

{
  highLimit = val;
}

References G4VEmModel::highLimit.

◆ SetIonisation()

void G4VMscModel::SetIonisation	(	G4VEnergyLossProcess *	p,
		const G4ParticleDefinition *	part
	)

inlineinherited

Definition at line 309 of file G4VMscModel.hh.

{
  ionisation = p;
  currentPart = part;
}

References G4VMscModel::currentPart, and G4VMscModel::ionisation.

Referenced by G4VMultipleScattering::PreparePhysicsTable(), and G4VMultipleScattering::StartTracking().

◆ SetLambdaLimit()

void G4VMscModel::SetLambdaLimit ( G4double val )

inlineinherited

Definition at line 244 of file G4VMscModel.hh.

{
  if(!IsLocked()) { lambdalimit = val; }
}

References G4VEmModel::IsLocked(), and G4VMscModel::lambdalimit.

◆ SetLateralDisplasmentFlag()

void G4VMscModel::SetLateralDisplasmentFlag ( G4bool val )

inlineinherited

Definition at line 216 of file G4VMscModel.hh.

{
  if(!IsLocked()) { latDisplasment = val; }
}

References G4VEmModel::IsLocked(), and G4VMscModel::latDisplasment.

Referenced by G4EmModelActivator::SetMscParameters().

◆ SetLocked()

void G4VEmModel::SetLocked ( G4bool val )

inlineinherited

Definition at line 884 of file G4VEmModel.hh.

{
  isLocked = val;
}

References G4VEmModel::isLocked.

Referenced by G4EmModelActivator::ActivateEmOptions(), G4EmModelActivator::AddStandardScattering(), and G4EmModelActivator::SetMscParameters().

◆ SetLowEnergyLimit()

void G4VEmModel::SetLowEnergyLimit ( G4double val )

inlineinherited

Definition at line 774 of file G4VEmModel.hh.

{
  lowLimit = val;
}

References G4VEmModel::lowLimit.

◆ SetLPMFlag()

void G4VEmModel::SetLPMFlag ( G4bool val )

inlineinherited

Definition at line 816 of file G4VEmModel.hh.

{
  theLPMflag = val;
}

References G4VEmModel::theLPMflag.

Referenced by G4eBremsstrahlungRelModel::G4eBremsstrahlungRelModel(), G4LivermoreBremsstrahlungModel::G4LivermoreBremsstrahlungModel(), G4SeltzerBergerModel::G4SeltzerBergerModel(), and G4eBremsstrahlung::InitialiseEnergyLossProcess().

◆ SetMasterThread()

void G4VEmModel::SetMasterThread ( G4bool val )

inlineinherited

Definition at line 739 of file G4VEmModel.hh.

{
  isMaster = val;
}

References G4VEmModel::isMaster.

Referenced by G4VEmProcess::PreparePhysicsTable(), G4VEnergyLossProcess::PreparePhysicsTable(), and G4VMultipleScattering::PreparePhysicsTable().

◆ SetParticleChange()

void G4VEmModel::SetParticleChange	(	G4VParticleChange *	p,
		G4VEmFluctuationModel *	f = `nullptr`
	)

inherited

Definition at line 447 of file G4VEmModel.cc.

{
  if(p != nullptr && pParticleChange != p) { pParticleChange = p; }
  if(flucModel != f) { flucModel = f; }
}

References G4VEmModel::flucModel, and G4VEmModel::pParticleChange.

Referenced by G4VMultipleScattering::AddEmModel(), G4VEmProcess::AddEmModel(), G4VEnergyLossProcess::AddEmModel(), G4VEmModel::GetParticleChangeForGamma(), G4VEmModel::GetParticleChangeForLoss(), G4EmMultiModel::Initialise(), G4IonParametrisedLossModel::Initialise(), G4DNADummyModel::Initialise(), and G4NuclearStopping::InitialiseProcess().

◆ SetPolarAngleLimit()

void G4VEmModel::SetPolarAngleLimit ( G4double val )

inlineinherited

Definition at line 802 of file G4VEmModel.hh.

{
  if(!isLocked) { polarAngleLimit = val; }
}

References G4VEmModel::isLocked, and G4VEmModel::polarAngleLimit.

Referenced by G4EmModelActivator::ActivateEmOptions(), G4TablesForExtrapolator::ComputeTrasportXS(), G4CoulombScattering::InitialiseProcess(), G4VEmProcess::PreparePhysicsTable(), and G4VMultipleScattering::PreparePhysicsTable().

◆ SetRangeFactor()

void G4VMscModel::SetRangeFactor ( G4double val )

inlineinherited

Definition at line 230 of file G4VMscModel.hh.

{
  if(!IsLocked()) { facrange = val; }
}

References G4VMscModel::facrange, and G4VEmModel::IsLocked().

Referenced by G4EmModelActivator::SetMscParameters().

◆ SetSafetyFactor()

void G4VMscModel::SetSafetyFactor ( G4double val )

inlineinherited

Definition at line 251 of file G4VMscModel.hh.

{
  if(!IsLocked()) { facsafety = val; }
}

References G4VMscModel::facsafety, and G4VEmModel::IsLocked().

◆ SetSampleZ()

void G4VMscModel::SetSampleZ ( G4bool val )

inlineinherited

Definition at line 265 of file G4VMscModel.hh.

{
  if(!IsLocked()) { samplez = val; }
}

References G4VEmModel::IsLocked(), and G4VMscModel::samplez.

◆ SetSecondaryThreshold()

void G4VEmModel::SetSecondaryThreshold ( G4double val )

inlineinherited

Definition at line 809 of file G4VEmModel.hh.

{
  secondaryThreshold = val;
}

References G4VEmModel::secondaryThreshold.

Referenced by G4MuBremsstrahlung::InitialiseEnergyLossProcess(), G4MuPairProduction::InitialiseEnergyLossProcess(), and G4eBremsstrahlung::InitialiseEnergyLossProcess().

◆ SetSingleScatteringFactor()

void G4WentzelVIModel::SetSingleScatteringFactor ( G4double val )

inherited

Definition at line 789 of file G4WentzelVIModel.cc.

{
  if(val > 0.05) {
    ssFactor = val;
    invssFactor = 1.0/(val - 0.05);
  }
}

References G4WentzelVIModel::invssFactor, and G4WentzelVIModel::ssFactor.

Referenced by G4LowEWentzelVIModel(), and G4WentzelVIModel::G4WentzelVIModel().

◆ SetSkin()

void G4VMscModel::SetSkin ( G4double val )

inlineinherited

Definition at line 223 of file G4VMscModel.hh.

{
  if(!IsLocked()) { skin = val; }
}

References G4VEmModel::IsLocked(), and G4VMscModel::skin.

Referenced by G4EmModelActivator::SetMscParameters().

◆ SetStepLimitType()

void G4VMscModel::SetStepLimitType ( G4MscStepLimitType val )

inlineinherited

Definition at line 258 of file G4VMscModel.hh.

{
  if(!IsLocked()) { steppingAlgorithm = val; }
}

References G4VEmModel::IsLocked(), and G4VMscModel::steppingAlgorithm.

Referenced by G4EmModelActivator::SetMscParameters().

◆ SetTripletModel()

void G4VEmModel::SetTripletModel ( G4VEmModel * p )

inlineinherited

Definition at line 645 of file G4VEmModel.hh.

{
  if(p != fTripletModel) {
    delete fTripletModel;
    fTripletModel = p;
  }
}

References G4VEmModel::fTripletModel.

Referenced by G4eplusTo2GammaOKVIModel::G4eplusTo2GammaOKVIModel().

◆ SetupForMaterial()

void G4VEmModel::SetupForMaterial	(	const G4ParticleDefinition *	,
		const G4Material *	,
		G4double	kineticEnergy
	)

virtualinherited

Reimplemented in G4eBremParametrizedModel, G4eBremsstrahlungRelModel, G4PairProductionRelModel, and G4SeltzerBergerModel.

Definition at line 440 of file G4VEmModel.cc.

442{}

Referenced by G4VEmModel::CrossSectionPerVolume(), G4PenelopeComptonModel::CrossSectionPerVolume(), G4PenelopeBremsstrahlungModel::CrossSectionPerVolume(), G4PenelopeIonisationModel::CrossSectionPerVolume(), G4EmCalculator::FindEmModel(), and G4EmElementSelector::Initialise().

◆ SetupParticle()

void G4WentzelVIModel::SetupParticle ( const G4ParticleDefinition * p )

inlineprotectedinherited

Definition at line 190 of file G4WentzelVIModel.hh.

{
  // Initialise mass and charge
  if(p != particle) {
    particle = p;
    wokvi->SetupParticle(p);
  }
}

References G4WentzelVIModel::particle, G4WentzelOKandVIxSection::SetupParticle(), and G4WentzelVIModel::wokvi.

Referenced by G4WentzelVIModel::ComputeCrossSectionPerAtom(), G4WentzelVIRelModel::ComputeCrossSectionPerAtom(), G4WentzelVIModel::ComputeSecondMoment(), G4WentzelVIModel::Initialise(), and G4WentzelVIModel::StartTracking().

◆ SetUseBaseMaterials()

void G4VEmModel::SetUseBaseMaterials ( G4bool val )

inlineinherited

Definition at line 753 of file G4VEmModel.hh.

{
  useBaseMaterials = val;
}

References G4VEmModel::useBaseMaterials.

Referenced by G4VEmProcess::BuildPhysicsTable(), G4VEnergyLossProcess::BuildPhysicsTable(), G4VMultipleScattering::BuildPhysicsTable(), G4TablesForExtrapolator::ComputeElectronDEDX(), G4TablesForExtrapolator::ComputeMuonDEDX(), G4TablesForExtrapolator::ComputeProtonDEDX(), G4TablesForExtrapolator::ComputeTrasportXS(), G4VEmProcess::PreparePhysicsTable(), G4VEnergyLossProcess::PreparePhysicsTable(), and G4VMultipleScattering::PreparePhysicsTable().

◆ SetUseSecondMoment()

void G4WentzelVIModel::SetUseSecondMoment ( G4bool val )

inlineinherited

Definition at line 232 of file G4WentzelVIModel.hh.

{
  useSecondMoment = val;
}

References G4WentzelVIModel::useSecondMoment.

◆ SetWVICrossSection()

void G4WentzelVIModel::SetWVICrossSection ( G4WentzelOKandVIxSection * ptr )

inlineinherited

Definition at line 215 of file G4WentzelVIModel.hh.

{
  if(ptr != wokvi) {
    delete wokvi;
    wokvi = ptr;
  }
}

References G4WentzelVIModel::wokvi.

Referenced by G4WentzelVIRelModel::G4WentzelVIRelModel().

◆ StartTracking()

void G4WentzelVIModel::StartTracking ( G4Track * track )

overridevirtualinherited

Reimplemented from G4VEmModel.

Definition at line 243 of file G4WentzelVIModel.cc.

{
  /*
  G4cout << "G4WentzelVIModel::StartTracking " << track << "  " << this << "  "
     << track->GetParticleDefinition()->GetParticleName() 
     << "   workvi: " << wokvi << G4endl; 
  */
  SetupParticle(track->GetParticleDefinition());
}

References G4Track::GetParticleDefinition(), and G4WentzelVIModel::SetupParticle().

◆ UseAngularGeneratorFlag()

G4bool G4VEmModel::UseAngularGeneratorFlag ( ) const

inlineinherited

Definition at line 718 of file G4VEmModel.hh.

{
  return useAngularGenerator;
}

References G4VEmModel::useAngularGenerator.

Referenced by G4AtimaEnergyLossModel::Initialise(), G4BetheBlochModel::Initialise(), G4BraggIonModel::Initialise(), G4BraggModel::Initialise(), G4ICRU73QOModel::Initialise(), G4LindhardSorensenIonModel::Initialise(), G4MollerBhabhaModel::Initialise(), G4AtimaEnergyLossModel::SampleSecondaries(), G4BetheBlochModel::SampleSecondaries(), G4BraggIonModel::SampleSecondaries(), G4BraggModel::SampleSecondaries(), G4ICRU73QOModel::SampleSecondaries(), G4LindhardSorensenIonModel::SampleSecondaries(), and G4MollerBhabhaModel::SampleSecondaries().

◆ UseBaseMaterials()

G4bool G4VEmModel::UseBaseMaterials ( ) const

inlineinherited

Definition at line 760 of file G4VEmModel.hh.

{
  return useBaseMaterials;
}

References G4VEmModel::useBaseMaterials.

◆ UseSecondMoment()

G4bool G4WentzelVIModel::UseSecondMoment ( ) const

inlineinherited

Definition at line 239 of file G4WentzelVIModel.hh.

{
  return useSecondMoment;
}

References G4WentzelVIModel::useSecondMoment.

◆ Value()

G4double G4VEmModel::Value	(	const G4MaterialCutsCouple *	couple,
		const G4ParticleDefinition *	p,
		G4double	kineticEnergy
	)

virtualinherited

Definition at line 406 of file G4VEmModel.cc.

{
  SetCurrentCouple(couple);
  return pFactor*e*e*CrossSectionPerVolume(pBaseMaterial,p,e,0.0,DBL_MAX);
}

References G4VEmModel::CrossSectionPerVolume(), DBL_MAX, G4VEmModel::pBaseMaterial, G4VEmModel::pFactor, and G4VEmModel::SetCurrentCouple().

Referenced by G4IonParametrisedLossModel::BuildRangeVector(), G4LossTableBuilder::BuildTableForModel(), G4LivermorePhotoElectricModel::ComputeCrossSectionPerAtom(), G4IonParametrisedLossModel::ComputeLossForStep(), G4VLEPTSModel::GetMeanFreePath(), G4DNABornExcitationModel2::GetPartialCrossSection(), G4DNABornExcitationModel2::Initialise(), G4DNABornExcitationModel2::RandomSelect(), G4SeltzerBergerModel::SampleEnergyTransfer(), G4LivermoreBremsstrahlungModel::SampleSecondaries(), and G4LivermorePhotoElectricModel::SampleSecondaries().

Field Documentation

◆ anglModel

G4VEmAngularDistribution* G4VEmModel::anglModel = nullptr

privateinherited

Definition at line 414 of file G4VEmModel.hh.

Referenced by G4VEmModel::GetAngularDistribution(), G4VEmModel::SetAngularDistribution(), and G4VEmModel::~G4VEmModel().

◆ basedCoupleIndex

size_t G4VEmModel::basedCoupleIndex = 0

protectedinherited

Definition at line 449 of file G4VEmModel.hh.

Referenced by G4VMscModel::GetTransportMeanFreePath(), and G4VEmModel::SetCurrentCouple().

◆ cosTetMaxNuc

G4double G4WentzelVIModel::cosTetMaxNuc = 0.0

protectedinherited

Definition at line 160 of file G4WentzelVIModel.hh.

Referenced by G4WentzelVIModel::ComputeCrossSectionPerAtom(), G4WentzelVIRelModel::ComputeCrossSectionPerAtom(), G4WentzelVIModel::ComputeGeomPathLength(), G4WentzelVIModel::ComputeSecondMoment(), G4WentzelVIModel::ComputeTransportXSectionPerVolume(), ComputeTruePathLengthLimit(), G4WentzelVIModel::ComputeTruePathLengthLimit(), and G4WentzelVIModel::ComputeTrueStepLength().

◆ cosThetaMax

G4double G4WentzelVIModel::cosThetaMax = -1.0

protectedinherited

Definition at line 169 of file G4WentzelVIModel.hh.

Referenced by G4WentzelVIModel::ComputeTruePathLengthLimit(), and G4WentzelVIModel::Initialise().

◆ cosThetaMin

G4double G4WentzelVIModel::cosThetaMin = 1.0

protectedinherited

Definition at line 168 of file G4WentzelVIModel.hh.

Referenced by G4WentzelVIModel::ComputeGeomPathLength(), G4WentzelVIModel::ComputeTrueStepLength(), and G4WentzelVIModel::SampleScattering().

◆ currentCouple

const G4MaterialCutsCouple* G4WentzelVIModel::currentCouple = nullptr

protectedinherited

Definition at line 141 of file G4WentzelVIModel.hh.

Referenced by G4WentzelVIModel::ComputeGeomPathLength(), ComputeTruePathLengthLimit(), G4WentzelVIModel::ComputeTruePathLengthLimit(), G4WentzelVIModel::ComputeTrueStepLength(), G4WentzelVIModel::DefineMaterial(), G4WentzelVIRelModel::DefineMaterial(), and G4WentzelVIModel::SampleScattering().

◆ currentCoupleIndex

size_t G4VEmModel::currentCoupleIndex = 0

protectedinherited

Definition at line 448 of file G4VEmModel.hh.

Referenced by G4VEmModel::SetCurrentCouple().

◆ currentCuts

const G4DataVector* G4WentzelVIModel::currentCuts = nullptr

protectedinherited

Definition at line 146 of file G4WentzelVIModel.hh.

Referenced by G4WentzelVIModel::Initialise().

◆ currentMaterial

const G4Material* G4WentzelVIModel::currentMaterial = nullptr

protectedinherited

Definition at line 142 of file G4WentzelVIModel.hh.

Referenced by G4WentzelVIModel::ComputeCrossSectionPerAtom(), G4WentzelVIRelModel::ComputeCrossSectionPerAtom(), G4WentzelVIModel::ComputeGeomPathLength(), G4WentzelVIModel::ComputeSecondMoment(), G4WentzelVIModel::ComputeTransportXSectionPerVolume(), ComputeTruePathLengthLimit(), G4WentzelVIModel::ComputeTruePathLengthLimit(), G4WentzelVIModel::ComputeTrueStepLength(), G4WentzelVIModel::DefineMaterial(), G4WentzelVIRelModel::DefineMaterial(), and G4WentzelVIModel::SampleScattering().

◆ currentMaterialIndex

G4int G4WentzelVIModel::currentMaterialIndex = 0

protectedinherited

Definition at line 172 of file G4WentzelVIModel.hh.

Referenced by G4WentzelVIModel::ComputeSecondMoment(), G4WentzelVIModel::ComputeTransportXSectionPerVolume(), G4WentzelVIModel::DefineMaterial(), G4WentzelVIRelModel::DefineMaterial(), G4WentzelVIModel::SampleScattering(), and G4WentzelVIModel::SecondMoment().

◆ currentPart

const G4ParticleDefinition* G4VMscModel::currentPart = nullptr

privateinherited

Definition at line 188 of file G4VMscModel.hh.

Referenced by G4VMscModel::SetIonisation().

◆ currentRange

G4double G4WentzelVIModel::currentRange = 0.0

protectedinherited

Definition at line 159 of file G4WentzelVIModel.hh.

Referenced by G4WentzelVIModel::ComputeGeomPathLength(), ComputeTruePathLengthLimit(), G4WentzelVIModel::ComputeTruePathLengthLimit(), G4WentzelVIModel::ComputeTrueStepLength(), and G4WentzelVIModel::Initialise().

◆ dedx

G4double G4VMscModel::dedx = 0.0

privateinherited

Definition at line 190 of file G4VMscModel.hh.

Referenced by G4VMscModel::G4VMscModel(), G4VMscModel::GetDEDX(), G4VMscModel::GetEnergy(), and G4VMscModel::GetRange().

◆ dtrl

G4double G4VMscModel::dtrl = 0.05

protectedinherited

Definition at line 200 of file G4VMscModel.hh.

Referenced by G4UrbanAdjointMscModel::ComputeGeomPathLength(), G4GoudsmitSaundersonMscModel::ComputeGeomPathLength(), G4UrbanMscModel::ComputeGeomPathLength(), G4UrbanAdjointMscModel::SampleScattering(), and G4UrbanMscModel::SampleScattering().

◆ effKinEnergy

G4double G4WentzelVIModel::effKinEnergy = 0.0

protectedinherited

Definition at line 165 of file G4WentzelVIModel.hh.

Referenced by G4WentzelVIModel::ComputeGeomPathLength(), G4WentzelVIModel::ComputeTruePathLengthLimit(), G4WentzelVIModel::ComputeTrueStepLength(), and G4WentzelVIModel::SampleScattering().

◆ elmSelectors

std::vector<G4EmElementSelector*>* G4VEmModel::elmSelectors = nullptr

privateinherited

Definition at line 419 of file G4VEmModel.hh.

Referenced by G4VEmModel::GetElementSelectors(), G4VEmModel::InitialiseElementSelectors(), G4VEmModel::SelectRandomAtom(), G4VEmModel::SelectTargetAtom(), G4VEmModel::SetElementSelectors(), and G4VEmModel::~G4VEmModel().

◆ eMaxActive

G4double G4VEmModel::eMaxActive = DBL_MAX

privateinherited

Definition at line 439 of file G4VEmModel.hh.

Referenced by G4VEmModel::HighEnergyActivationLimit(), G4VEmModel::IsActive(), and G4VEmModel::SetActivationHighEnergyLimit().

◆ eMinActive

G4double G4VEmModel::eMinActive = 0.0

privateinherited

Definition at line 438 of file G4VEmModel.hh.

Referenced by G4VEmModel::IsActive(), G4VEmModel::LowEnergyActivationLimit(), and G4VEmModel::SetActivationLowEnergyLimit().

◆ facgeom

G4double G4VMscModel::facgeom = 2.5

protectedinherited

Definition at line 197 of file G4VMscModel.hh.

Referenced by G4UrbanAdjointMscModel::ComputeTruePathLengthLimit(), ComputeTruePathLengthLimit(), G4GoudsmitSaundersonMscModel::ComputeTruePathLengthLimit(), G4UrbanMscModel::ComputeTruePathLengthLimit(), G4WentzelVIModel::ComputeTruePathLengthLimit(), G4VMscModel::DumpParameters(), G4VMscModel::InitialiseParameters(), and G4VMscModel::SetGeomFactor().

◆ facrange

G4double G4VMscModel::facrange = 0.04

protectedinherited

Definition at line 196 of file G4VMscModel.hh.

Referenced by G4UrbanAdjointMscModel::ComputeTruePathLengthLimit(), ComputeTruePathLengthLimit(), G4GoudsmitSaundersonMscModel::ComputeTruePathLengthLimit(), G4UrbanMscModel::ComputeTruePathLengthLimit(), G4WentzelVIModel::ComputeTruePathLengthLimit(), G4VMscModel::DumpParameters(), G4VMscModel::InitialiseParameters(), G4VMscModel::SetRangeFactor(), G4UrbanAdjointMscModel::StartTracking(), and G4UrbanMscModel::StartTracking().

◆ facsafety

G4double G4VMscModel::facsafety = 0.6

protectedinherited

Definition at line 198 of file G4VMscModel.hh.

Referenced by G4UrbanAdjointMscModel::ComputeTruePathLengthLimit(), ComputeTruePathLengthLimit(), G4GoudsmitSaundersonMscModel::ComputeTruePathLengthLimit(), G4UrbanMscModel::ComputeTruePathLengthLimit(), G4WentzelVIModel::ComputeTruePathLengthLimit(), G4VMscModel::DumpParameters(), G4UrbanAdjointMscModel::G4UrbanAdjointMscModel(), G4VMscModel::InitialiseParameters(), and G4VMscModel::SetSafetyFactor().

◆ fCurrentCouple

const G4MaterialCutsCouple* G4VEmModel::fCurrentCouple = nullptr

privateinherited

Definition at line 416 of file G4VEmModel.hh.

Referenced by G4VEmModel::CurrentCouple(), and G4VEmModel::SetCurrentCouple().

◆ fCurrentElement

const G4Element* G4VEmModel::fCurrentElement = nullptr

privateinherited

Definition at line 417 of file G4VEmModel.hh.

Referenced by G4VEmModel::GetCurrentElement(), G4VEmModel::SelectRandomAtom(), G4VEmModel::SelectRandomAtomNumber(), G4VEmModel::SelectTargetAtom(), and G4VEmModel::SetCurrentElement().

◆ fCurrentIsotope

const G4Isotope* G4VEmModel::fCurrentIsotope = nullptr

privateinherited

Definition at line 418 of file G4VEmModel.hh.

Referenced by G4VEmModel::GetCurrentIsotope(), G4VEmModel::SelectIsotopeNumber(), G4VEmModel::SelectRandomAtom(), G4VEmModel::SelectTargetAtom(), and G4VEmModel::SetCurrentElement().

◆ fDisplacement

G4ThreeVector G4VMscModel::fDisplacement

protectedinherited

Definition at line 208 of file G4VMscModel.hh.

Referenced by G4UrbanAdjointMscModel::SampleDisplacement(), G4UrbanMscModel::SampleDisplacement(), G4UrbanAdjointMscModel::SampleDisplacementNew(), G4UrbanMscModel::SampleDisplacementNew(), G4UrbanAdjointMscModel::SampleScattering(), G4UrbanMscModel::SampleScattering(), G4WentzelVIModel::SampleScattering(), and G4DummyModel::SampleScattering().

◆ fElementData

G4ElementData* G4VEmModel::fElementData = nullptr

protectedinherited

Definition at line 424 of file G4VEmModel.hh.

Referenced by G4MuPairProductionModel::FindScaledEnergy(), G4VEmModel::GetElementData(), G4MuPairProductionModel::Initialise(), G4MuPairProductionModel::InitialiseLocal(), G4MuPairProductionModel::MakeSamplingTables(), G4MuPairProductionModel::RetrieveTables(), G4MuPairProductionModel::StoreTables(), and G4VEmModel::~G4VEmModel().

◆ fEmManager

G4LossTableManager* G4VEmModel::fEmManager

privateinherited

Definition at line 420 of file G4VEmModel.hh.

Referenced by G4VEmModel::G4VEmModel(), and G4VEmModel::~G4VEmModel().

◆ fixedCut

G4double G4WentzelVIModel::fixedCut = -1.0

protectedinherited

Definition at line 162 of file G4WentzelVIModel.hh.

Referenced by G4WentzelVIModel::ComputeCrossSectionPerAtom(), G4WentzelVIModel::ComputeSecondMoment(), G4WentzelVIModel::ComputeTransportXSectionPerVolume(), G4WentzelVIModel::GetFixedCut(), G4WentzelVIModel::SampleScattering(), and G4WentzelVIModel::SetFixedCut().

◆ flagDeexcitation

G4bool G4VEmModel::flagDeexcitation = false

privateinherited

Definition at line 455 of file G4VEmModel.hh.

Referenced by G4VEmModel::DeexcitationFlag(), and G4VEmModel::SetDeexcitationFlag().

◆ flagForceBuildTable

G4bool G4VEmModel::flagForceBuildTable = false

privateinherited

Definition at line 456 of file G4VEmModel.hh.

Referenced by G4VEmModel::ForceBuildTableFlag(), and G4VEmModel::SetForceBuildTable().

◆ flucModel

G4VEmFluctuationModel* G4VEmModel::flucModel = nullptr

privateinherited

Definition at line 413 of file G4VEmModel.hh.

Referenced by G4VEmModel::GetModelOfFluctuations(), and G4VEmModel::SetParticleChange().

◆ fParticleChange

G4ParticleChangeForMSC* G4WentzelVIModel::fParticleChange = nullptr

protectedinherited

Definition at line 145 of file G4WentzelVIModel.hh.

Referenced by G4WentzelVIModel::Initialise(), and G4WentzelVIModel::SampleScattering().

◆ fSecondMoments

G4PhysicsTable* G4WentzelVIModel::fSecondMoments = nullptr

protectedinherited

Definition at line 147 of file G4WentzelVIModel.hh.

Referenced by G4WentzelVIModel::GetSecondMomentTable(), G4WentzelVIModel::Initialise(), G4WentzelVIModel::InitialiseLocal(), G4WentzelVIModel::SecondMoment(), and G4WentzelVIModel::~G4WentzelVIModel().

◆ fTripletModel

G4VEmModel* G4VEmModel::fTripletModel = nullptr

privateinherited

Definition at line 415 of file G4VEmModel.hh.

Referenced by G4VEmModel::GetParticleChangeForGamma(), G4VEmModel::GetParticleChangeForLoss(), G4VEmModel::GetTripletModel(), and G4VEmModel::SetTripletModel().

◆ geomMax

G4double G4VMscModel::geomMax

protectedinherited

Definition at line 203 of file G4VMscModel.hh.

◆ geomMin

G4double G4VMscModel::geomMin

protectedinherited

Definition at line 202 of file G4VMscModel.hh.

◆ highLimit

G4double G4VEmModel::highLimit

privateinherited

Definition at line 437 of file G4VEmModel.hh.

Referenced by G4VEmModel::HighEnergyLimit(), G4VEmModel::InitialiseElementSelectors(), and G4VEmModel::SetHighEnergyLimit().

◆ idx2

size_t G4WentzelVIModel::idx2 = 0

protectedinherited

Definition at line 173 of file G4WentzelVIModel.hh.

Referenced by G4WentzelVIModel::SecondMoment().

◆ inveplus

G4double G4VEmModel::inveplus

protectedinherited

Definition at line 431 of file G4VEmModel.hh.

Referenced by G4VEmModel::GetChargeSquareRatio(), G4VMscModel::GetDEDX(), G4VMscModel::GetEnergy(), G4VMscModel::GetRange(), G4LindhardSorensenIonModel::SetupParameters(), and G4BetheBlochModel::SetupParameters().

◆ invssFactor

G4double G4WentzelVIModel::invssFactor = 1.0

protectedinherited

Definition at line 152 of file G4WentzelVIModel.hh.

Referenced by G4WentzelVIModel::ComputeTruePathLengthLimit(), and G4WentzelVIModel::SetSingleScatteringFactor().

◆ ionisation

G4VEnergyLossProcess* G4VMscModel::ionisation = nullptr

privateinherited

Definition at line 187 of file G4VMscModel.hh.

Referenced by G4VMscModel::GetDEDX(), G4VMscModel::GetEnergy(), G4VMscModel::GetIonisation(), G4VMscModel::GetRange(), and G4VMscModel::SetIonisation().

◆ isCombined

G4bool G4WentzelVIModel::isCombined

protectedinherited

Definition at line 180 of file G4WentzelVIModel.hh.

Referenced by G4WentzelVIModel::G4WentzelVIModel(), and G4WentzelVIModel::Initialise().

◆ isLocked

G4bool G4VEmModel::isLocked = false

privateinherited

Definition at line 463 of file G4VEmModel.hh.

Referenced by G4VEmModel::IsLocked(), G4VEmModel::SetLocked(), and G4VEmModel::SetPolarAngleLimit().

◆ isMaster

G4bool G4VEmModel::isMaster = true

privateinherited

Definition at line 457 of file G4VEmModel.hh.

Referenced by G4VEmModel::IsMaster(), G4VEmModel::SetMasterThread(), and G4VEmModel::~G4VEmModel().

◆ lambdaeff

G4double G4WentzelVIModel::lambdaeff = 0.0

protectedinherited

Definition at line 158 of file G4WentzelVIModel.hh.

Referenced by G4WentzelVIModel::ComputeGeomPathLength(), ComputeTruePathLengthLimit(), G4WentzelVIModel::ComputeTruePathLengthLimit(), G4WentzelVIModel::ComputeTrueStepLength(), and G4WentzelVIModel::SampleScattering().

◆ lambdalimit

G4double G4VMscModel::lambdalimit

protectedinherited

Definition at line 201 of file G4VMscModel.hh.

Referenced by G4UrbanMscModel::ComputeTruePathLengthLimit(), G4VMscModel::DumpParameters(), G4VMscModel::InitialiseParameters(), G4UrbanMscModel::SampleCosineTheta(), and G4VMscModel::SetLambdaLimit().

◆ latDisplasment

G4bool G4VMscModel::latDisplasment = true

protectedinherited

Definition at line 206 of file G4VMscModel.hh.

Referenced by G4UrbanAdjointMscModel::ComputeTruePathLengthLimit(), G4UrbanMscModel::ComputeTruePathLengthLimit(), G4VMscModel::DumpParameters(), G4UrbanAdjointMscModel::Initialise(), G4UrbanMscModel::Initialise(), G4VMscModel::InitialiseParameters(), G4UrbanAdjointMscModel::SampleScattering(), G4UrbanMscModel::SampleScattering(), G4WentzelVIModel::SampleScattering(), and G4VMscModel::SetLateralDisplasmentFlag().

◆ localElmSelectors

G4bool G4VEmModel::localElmSelectors = true

privateinherited

Definition at line 460 of file G4VEmModel.hh.

Referenced by G4VEmModel::SetElementSelectors(), and G4VEmModel::~G4VEmModel().

◆ localrange

G4double G4VMscModel::localrange = DBL_MAX

privateinherited

Definition at line 192 of file G4VMscModel.hh.

Referenced by G4VMscModel::GetEnergy(), and G4VMscModel::GetRange().

◆ localTable

G4bool G4VEmModel::localTable = true

privateinherited

Definition at line 459 of file G4VEmModel.hh.

Referenced by G4VEmModel::SetCrossSectionTable(), and G4VEmModel::~G4VEmModel().

◆ localtkin

G4double G4VMscModel::localtkin = 0.0

privateinherited

Definition at line 191 of file G4VMscModel.hh.

Referenced by G4VMscModel::GetEnergy(), and G4VMscModel::GetRange().

◆ lossFlucFlag

G4bool G4VEmModel::lossFlucFlag = true

protectedinherited

Definition at line 450 of file G4VEmModel.hh.

Referenced by G4ICRU49NuclearStoppingModel::NuclearStoppingPower(), and G4VEmModel::SetFluctuationFlag().

◆ lowEnergyLimit

G4double G4WentzelVIModel::lowEnergyLimit

protectedinherited

Definition at line 149 of file G4WentzelVIModel.hh.

Referenced by G4WentzelVIModel::ComputeCrossSectionPerAtom(), G4WentzelVIRelModel::ComputeCrossSectionPerAtom(), G4WentzelVIModel::G4WentzelVIModel(), and G4WentzelVIModel::SampleScattering().

◆ lowLimit

G4double G4VEmModel::lowLimit

privateinherited

Definition at line 436 of file G4VEmModel.hh.

Referenced by G4VEmModel::InitialiseElementSelectors(), G4VEmModel::LowEnergyLimit(), and G4VEmModel::SetLowEnergyLimit().

◆ name

const G4String G4VEmModel::name

privateinherited

Definition at line 465 of file G4VEmModel.hh.

Referenced by source.g4viscp.G4Scene::create_scene(), G4VEmModel::GetName(), mcscore.MCParticle::printout(), and source.g4viscp.G4Scene::update_scene().

◆ nelments

G4int G4WentzelVIModel::nelments = 0

protectedinherited

Definition at line 176 of file G4WentzelVIModel.hh.

Referenced by G4WentzelVIModel::ComputeTransportXSectionPerVolume(), and G4WentzelVIModel::Initialise().

◆ nsec

G4int G4VEmModel::nsec = 5

privateinherited

Definition at line 444 of file G4VEmModel.hh.

Referenced by G4VEmModel::CrossSectionPerVolume(), and G4VEmModel::G4VEmModel().

◆ nSelectors

G4int G4VEmModel::nSelectors = 0

privateinherited

Definition at line 443 of file G4VEmModel.hh.

Referenced by G4VEmModel::InitialiseElementSelectors(), G4VEmModel::SelectRandomAtom(), G4VEmModel::SelectTargetAtom(), G4VEmModel::SetElementSelectors(), and G4VEmModel::~G4VEmModel().

◆ particle

const G4ParticleDefinition* G4WentzelVIModel::particle = nullptr

protectedinherited

Definition at line 144 of file G4WentzelVIModel.hh.

Referenced by emcalc_gui.MainWindow::cb_select_particle(), emcalc_gui.MainWindow::cb_show_plot(), G4WentzelVIRelModel::ComputeCrossSectionPerAtom(), G4WentzelVIModel::ComputeGeomPathLength(), ComputeTruePathLengthLimit(), G4WentzelVIModel::ComputeTruePathLengthLimit(), G4WentzelVIModel::ComputeTrueStepLength(), G4WentzelVIModel::SampleScattering(), and G4WentzelVIModel::SetupParticle().

◆ pBaseMaterial

const G4Material* G4VEmModel::pBaseMaterial = nullptr

protectedinherited

Definition at line 427 of file G4VEmModel.hh.

Referenced by G4VEmModel::ComputeDEDX(), G4VEmModel::CrossSection(), G4VMscModel::GetTransportMeanFreePath(), G4VEmModel::SelectRandomAtom(), G4VEmModel::SelectTargetAtom(), G4VEmModel::SetCurrentCouple(), and G4VEmModel::Value().

◆ pFactor

G4double G4VEmModel::pFactor = 1.0

protectedinherited

Definition at line 432 of file G4VEmModel.hh.

Referenced by G4VEmModel::ComputeDEDX(), G4VEmModel::CrossSection(), G4VMscModel::GetTransportMeanFreePath(), G4VEmModel::SetCurrentCouple(), and G4VEmModel::Value().

◆ polarAngleLimit

G4double G4VEmModel::polarAngleLimit

privateinherited

Definition at line 441 of file G4VEmModel.hh.

Referenced by G4VEmModel::PolarAngleLimit(), and G4VEmModel::SetPolarAngleLimit().

◆ pParticleChange

G4VParticleChange* G4VEmModel::pParticleChange = nullptr

protectedinherited

Definition at line 425 of file G4VEmModel.hh.

Referenced by G4VEmModel::GetParticleChangeForGamma(), G4VEmModel::GetParticleChangeForLoss(), G4VMscModel::GetParticleChangeForMSC(), G4EmMultiModel::Initialise(), and G4VEmModel::SetParticleChange().

◆ preKinEnergy

G4double G4WentzelVIModel::preKinEnergy = 0.0

protectedinherited

Definition at line 155 of file G4WentzelVIModel.hh.

Referenced by G4WentzelVIModel::ComputeGeomPathLength(), ComputeTruePathLengthLimit(), G4WentzelVIModel::ComputeTruePathLengthLimit(), G4WentzelVIModel::ComputeTrueStepLength(), and G4WentzelVIModel::SampleScattering().

◆ prob

std::vector<G4double> G4WentzelVIModel::prob

protectedinherited

Definition at line 184 of file G4WentzelVIModel.hh.

Referenced by G4WentzelVIModel::ComputeTransportXSectionPerVolume(), G4WentzelVIModel::Initialise(), and G4WentzelVIModel::SampleScattering().

◆ safetyHelper

G4SafetyHelper* G4VMscModel::safetyHelper = nullptr

privateinherited

Definition at line 186 of file G4VMscModel.hh.

Referenced by G4VMscModel::ComputeGeomLimit(), G4VMscModel::ComputeSafety(), and G4VMscModel::GetParticleChangeForMSC().

◆ samplez

G4bool G4VMscModel::samplez = false

protectedinherited

Definition at line 205 of file G4VMscModel.hh.

Referenced by G4VMscModel::SetSampleZ().

◆ secondaryThreshold

G4double G4VEmModel::secondaryThreshold = DBL_MAX

privateinherited

Definition at line 440 of file G4VEmModel.hh.

Referenced by G4VEmModel::SecondaryThreshold(), and G4VEmModel::SetSecondaryThreshold().

◆ singleScatteringMode

G4bool G4WentzelVIModel::singleScatteringMode

protectedinherited

Definition at line 179 of file G4WentzelVIModel.hh.

Referenced by G4WentzelVIModel::ComputeGeomPathLength(), ComputeTruePathLengthLimit(), G4WentzelVIModel::ComputeTruePathLengthLimit(), G4WentzelVIModel::ComputeTrueStepLength(), and G4WentzelVIModel::SampleScattering().

◆ skin

G4double G4VMscModel::skin = 1.0

protectedinherited

Definition at line 199 of file G4VMscModel.hh.

Referenced by G4UrbanAdjointMscModel::ComputeTruePathLengthLimit(), G4GoudsmitSaundersonMscModel::ComputeTruePathLengthLimit(), G4UrbanMscModel::ComputeTruePathLengthLimit(), G4VMscModel::DumpParameters(), G4UrbanAdjointMscModel::G4UrbanAdjointMscModel(), G4UrbanMscModel::G4UrbanMscModel(), G4VMscModel::InitialiseParameters(), and G4VMscModel::SetSkin().

◆ ssFactor

G4double G4WentzelVIModel::ssFactor = 1.05

protectedinherited

Definition at line 151 of file G4WentzelVIModel.hh.

Referenced by G4WentzelVIModel::ComputeTrueStepLength(), and G4WentzelVIModel::SetSingleScatteringFactor().

◆ steppingAlgorithm

G4MscStepLimitType G4VMscModel::steppingAlgorithm

protectedinherited

Definition at line 209 of file G4VMscModel.hh.

Referenced by G4UrbanAdjointMscModel::ComputeTruePathLengthLimit(), ComputeTruePathLengthLimit(), G4GoudsmitSaundersonMscModel::ComputeTruePathLengthLimit(), G4UrbanMscModel::ComputeTruePathLengthLimit(), G4WentzelVIModel::ComputeTruePathLengthLimit(), G4VMscModel::DumpParameters(), G4VMscModel::InitialiseParameters(), G4GoudsmitSaundersonMscModel::SampleScattering(), and G4VMscModel::SetStepLimitType().

◆ theDensityFactor

const std::vector<G4double>* G4VEmModel::theDensityFactor = nullptr

protectedinherited

Definition at line 428 of file G4VEmModel.hh.

Referenced by G4VEmModel::G4VEmModel().

◆ theDensityIdx

const std::vector<G4int>* G4VEmModel::theDensityIdx = nullptr

protectedinherited

Definition at line 429 of file G4VEmModel.hh.

Referenced by G4VEmModel::G4VEmModel().

◆ theLPMflag

G4bool G4VEmModel::theLPMflag = false

privateinherited

Definition at line 454 of file G4VEmModel.hh.

Referenced by G4VEmModel::LPMFlag(), and G4VEmModel::SetLPMFlag().

◆ tlimitminfix

G4double G4WentzelVIModel::tlimitminfix

protectedinherited

Definition at line 150 of file G4WentzelVIModel.hh.

Referenced by ComputeTruePathLengthLimit(), G4WentzelVIModel::ComputeTruePathLengthLimit(), and G4WentzelVIModel::G4WentzelVIModel().

◆ tPathLength

G4double G4WentzelVIModel::tPathLength = 0.0

protectedinherited

Definition at line 156 of file G4WentzelVIModel.hh.

Referenced by G4WentzelVIModel::ComputeGeomPathLength(), G4WentzelVIModel::ComputeTrueStepLength(), and G4WentzelVIModel::SampleScattering().

◆ useAngularGenerator

G4bool G4VEmModel::useAngularGenerator = false

privateinherited

Definition at line 461 of file G4VEmModel.hh.

Referenced by G4VEmModel::SetAngularGeneratorFlag(), and G4VEmModel::UseAngularGeneratorFlag().

◆ useBaseMaterials

G4bool G4VEmModel::useBaseMaterials = false

privateinherited

Definition at line 462 of file G4VEmModel.hh.

Referenced by G4VEmModel::SetCurrentCouple(), G4VEmModel::SetUseBaseMaterials(), and G4VEmModel::UseBaseMaterials().

◆ useSecondMoment

G4bool G4WentzelVIModel::useSecondMoment

protectedinherited

Definition at line 181 of file G4WentzelVIModel.hh.

Referenced by G4WentzelVIModel::Initialise(), G4WentzelVIModel::SampleScattering(), G4WentzelVIModel::SecondMoment(), G4WentzelVIModel::SetUseSecondMoment(), and G4WentzelVIModel::UseSecondMoment().

◆ wokvi

G4WentzelOKandVIxSection* G4WentzelVIModel::wokvi

protectedinherited

Definition at line 140 of file G4WentzelVIModel.hh.

◆ xsec

std::vector<G4double> G4VEmModel::xsec

privateinherited

Definition at line 466 of file G4VEmModel.hh.

Referenced by G4VEmModel::CrossSectionPerVolume(), G4VEmModel::G4VEmModel(), and G4VEmModel::SelectRandomAtom().

◆ xsecn

std::vector<G4double> G4WentzelVIModel::xsecn

protectedinherited

Definition at line 183 of file G4WentzelVIModel.hh.

Referenced by G4WentzelVIModel::ComputeTransportXSectionPerVolume(), G4WentzelVIModel::Initialise(), and G4WentzelVIModel::SampleScattering().

◆ xSectionTable

G4PhysicsTable* G4VEmModel::xSectionTable = nullptr

protectedinherited

Definition at line 426 of file G4VEmModel.hh.

Referenced by G4VEmModel::GetCrossSectionTable(), G4VMscModel::GetParticleChangeForMSC(), G4VMscModel::GetTransportMeanFreePath(), G4VEmModel::SetCrossSectionTable(), and G4VEmModel::~G4VEmModel().

◆ xtsec

G4double G4WentzelVIModel::xtsec = 0.0

protectedinherited

Definition at line 170 of file G4WentzelVIModel.hh.

Referenced by G4WentzelVIModel::ComputeGeomPathLength(), G4WentzelVIModel::ComputeTransportXSectionPerVolume(), G4WentzelVIModel::ComputeTrueStepLength(), and G4WentzelVIModel::SampleScattering().

◆ zPathLength

G4double G4WentzelVIModel::zPathLength = 0.0

protectedinherited

Definition at line 157 of file G4WentzelVIModel.hh.

Referenced by G4WentzelVIModel::ComputeGeomPathLength(), G4WentzelVIModel::ComputeTrueStepLength(), and G4WentzelVIModel::SampleScattering().

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

source/processes/electromagnetic/lowenergy/include/G4LowEWentzelVIModel.hh
source/processes/electromagnetic/lowenergy/src/G4LowEWentzelVIModel.cc

Public Member Functions

Protected Member Functions

Protected Attributes

Private Member Functions

Private Attributes

Detailed Description

Constructor & Destructor Documentation

◆ G4LowEWentzelVIModel() [1/2]

◆ ~G4LowEWentzelVIModel()

◆ G4LowEWentzelVIModel() [2/2]

Member Function Documentation

◆ ChargeSquareRatio()

◆ ComputeCrossSectionPerAtom() [1/2]

◆ ComputeCrossSectionPerAtom() [2/2]

◆ ComputeCrossSectionPerShell()

◆ ComputeDEDX()

◆ ComputeDEDXPerVolume()

◆ ComputeGeomLimit()

◆ ComputeGeomPathLength()

◆ ComputeMeanFreePath()

◆ ComputeSafety()

◆ ComputeSecondMoment()

◆ ComputeTransportXSectionPerVolume()

◆ ComputeTruePathLengthLimit()

◆ ComputeTrueStepLength()

◆ ConvertTrueToGeom()

◆ CorrectionsAlongStep()

◆ CrossSection()

◆ CrossSectionPerVolume()

◆ CurrentCouple()

◆ DeexcitationFlag()

◆ DefineForRegion()

◆ DefineMaterial()

◆ DumpParameters()

◆ FillNumberOfSecondaries()

◆ ForceBuildTableFlag()

◆ GetAngularDistribution()

◆ GetChargeSquareRatio()

◆ GetCrossSectionTable()

◆ GetCurrentElement()

◆ GetCurrentIsotope()

◆ GetDEDX() [1/2]

◆ GetDEDX() [2/2]

◆ GetElementData()

◆ GetElementSelectors()

◆ GetEnergy()

◆ GetFixedCut()

◆ GetIonisation()

◆ GetModelOfFluctuations()

◆ GetName()

◆ GetPartialCrossSection()

◆ GetParticleChangeForGamma()

◆ GetParticleChangeForLoss()

◆ GetParticleChangeForMSC()

◆ GetParticleCharge()

◆ GetRange() [1/2]

◆ GetRange() [2/2]

◆ GetSecondMomentTable()

◆ GetTransportMeanFreePath() [1/2]

◆ GetTransportMeanFreePath() [2/2]

◆ GetTripletModel()

◆ GetWVICrossSection()

◆ HighEnergyActivationLimit()

◆ HighEnergyLimit()

◆ Initialise()

◆ InitialiseElementSelectors()

◆ InitialiseForElement()

◆ InitialiseForMaterial()

◆ InitialiseLocal()

◆ InitialiseParameters()

◆ IsActive()

◆ IsLocked()

◆ IsMaster()

◆ LowEnergyActivationLimit()

◆ LowEnergyLimit()

◆ LPMFlag()

◆ MaxSecondaryEnergy()

◆ MaxSecondaryKinEnergy()

◆ MinEnergyCut()

◆ MinPrimaryEnergy()