G4XTRTransparentRegRadModel Class Reference

#include <G4XTRTransparentRegRadModel.hh>

Inheritance diagram for G4XTRTransparentRegRadModel:

Public Member Functions
	G4XTRTransparentRegRadModel (G4LogicalVolume *anEnvelope, G4Material *, G4Material *, G4double, G4double, G4int, const G4String &processName="XTRTransparentRegRadModel")
	~G4XTRTransparentRegRadModel ()
G4double	SpectralXTRdEdx (G4double energy)
G4double	GetStackFactor (G4double energy, G4double gamma, G4double varAngle)
Public Member Functions inherited from G4VXTRenergyLoss
	G4VXTRenergyLoss (G4LogicalVolume *anEnvelope, G4Material *, G4Material *, G4double, G4double, G4int, const G4String &processName="XTRenergyLoss", G4ProcessType type=fElectromagnetic)
virtual	~G4VXTRenergyLoss ()
G4bool	IsApplicable (const G4ParticleDefinition &)
G4VParticleChange *	PostStepDoIt (const G4Track &aTrack, const G4Step &aStep)
G4double	GetMeanFreePath (const G4Track &aTrack, G4double previousStepSize, G4ForceCondition *condition)
void	BuildPhysicsTable (const G4ParticleDefinition &)
void	BuildEnergyTable ()
void	BuildAngleForEnergyBank ()
void	BuildTable ()
void	BuildAngleTable ()
void	BuildGlobalAngleTable ()
G4complex	OneInterfaceXTRdEdx (G4double energy, G4double gamma, G4double varAngle)
G4double	SpectralAngleXTRdEdx (G4double varAngle)
G4double	AngleSpectralXTRdEdx (G4double energy)
G4double	AngleXTRdEdx (G4double varAngle)
G4double	OneBoundaryXTRNdensity (G4double energy, G4double gamma, G4double varAngle) const
G4double	XTRNSpectralAngleDensity (G4double varAngle)
G4double	XTRNSpectralDensity (G4double energy)
G4double	XTRNAngleSpectralDensity (G4double energy)
G4double	XTRNAngleDensity (G4double varAngle)
void	GetNumberOfPhotons ()
G4double	GetPlateFormationZone (G4double, G4double, G4double)
G4complex	GetPlateComplexFZ (G4double, G4double, G4double)
void	ComputePlatePhotoAbsCof ()
G4double	GetPlateLinearPhotoAbs (G4double)
void	GetPlateZmuProduct ()
G4double	GetPlateZmuProduct (G4double, G4double, G4double)
G4double	GetGasFormationZone (G4double, G4double, G4double)
G4complex	GetGasComplexFZ (G4double, G4double, G4double)
void	ComputeGasPhotoAbsCof ()
G4double	GetGasLinearPhotoAbs (G4double)
void	GetGasZmuProduct ()
G4double	GetGasZmuProduct (G4double, G4double, G4double)
G4double	GetPlateCompton (G4double)
G4double	GetGasCompton (G4double)
G4double	GetComptonPerAtom (G4double, G4double)
G4double	GetXTRrandomEnergy (G4double scaledTkin, G4int iTkin)
G4double	GetXTRenergy (G4int iPlace, G4double position, G4int iTransfer)
G4double	GetRandomAngle (G4double energyXTR, G4int iTkin)
G4double	GetAngleXTR (G4int iTR, G4double position, G4int iAngle)
G4double	GetGamma ()
G4double	GetEnergy ()
G4double	GetVarAngle ()
void	SetGamma (G4double gamma)
void	SetEnergy (G4double energy)
void	SetVarAngle (G4double varAngle)
void	SetAngleRadDistr (G4bool pAngleRadDistr)
void	SetCompton (G4bool pC)
G4PhysicsLogVector *	GetProtonVector ()
G4int	GetTotBin ()
G4PhysicsFreeVector *	GetAngleVector (G4double energy, G4int n)
Public Member Functions inherited from G4VDiscreteProcess
	G4VDiscreteProcess (const G4String &, G4ProcessType aType=fNotDefined)
	G4VDiscreteProcess (G4VDiscreteProcess &)
virtual	~G4VDiscreteProcess ()
virtual G4double	PostStepGetPhysicalInteractionLength (const G4Track &track, G4double previousStepSize, G4ForceCondition *condition)
virtual G4double	AlongStepGetPhysicalInteractionLength (const G4Track &, G4double, G4double, G4double &, G4GPILSelection *)
virtual G4double	AtRestGetPhysicalInteractionLength (const G4Track &, G4ForceCondition *)
virtual G4VParticleChange *	AtRestDoIt (const G4Track &, const G4Step &)
virtual G4VParticleChange *	AlongStepDoIt (const G4Track &, const G4Step &)
Public Member Functions inherited from G4VProcess
	G4VProcess (const G4String &aName="NoName", G4ProcessType aType=fNotDefined)
	G4VProcess (const G4VProcess &right)
virtual	~G4VProcess ()
G4int	operator== (const G4VProcess &right) const
G4int	operator!= (const G4VProcess &right) const
G4double	GetCurrentInteractionLength () const
void	SetPILfactor (G4double value)
G4double	GetPILfactor () const
G4double	AlongStepGPIL (const G4Track &track, G4double previousStepSize, G4double currentMinimumStep, G4double &proposedSafety, G4GPILSelection *selection)
G4double	AtRestGPIL (const G4Track &track, G4ForceCondition *condition)
G4double	PostStepGPIL (const G4Track &track, G4double previousStepSize, G4ForceCondition *condition)
virtual void	PreparePhysicsTable (const G4ParticleDefinition &)
virtual G4bool	StorePhysicsTable (const G4ParticleDefinition *, const G4String &, G4bool)
virtual G4bool	RetrievePhysicsTable (const G4ParticleDefinition *, const G4String &, G4bool)
const G4String &	GetPhysicsTableFileName (const G4ParticleDefinition *, const G4String &directory, const G4String &tableName, G4bool ascii=false)
const G4String &	GetProcessName () const
G4ProcessType	GetProcessType () const
void	SetProcessType (G4ProcessType)
G4int	GetProcessSubType () const
void	SetProcessSubType (G4int)
virtual void	StartTracking (G4Track *)
virtual void	EndTracking ()
virtual void	SetProcessManager (const G4ProcessManager *)
virtual const G4ProcessManager *	GetProcessManager ()
virtual void	ResetNumberOfInteractionLengthLeft ()
G4double	GetNumberOfInteractionLengthLeft () const
G4double	GetTotalNumberOfInteractionLengthTraversed () const
G4bool	isAtRestDoItIsEnabled () const
G4bool	isAlongStepDoItIsEnabled () const
G4bool	isPostStepDoItIsEnabled () const
virtual void	DumpInfo () const
void	SetVerboseLevel (G4int value)
G4int	GetVerboseLevel () const
virtual void	SetMasterProcess (G4VProcess *masterP)
const G4VProcess *	GetMasterProcess () const
virtual void	BuildWorkerPhysicsTable (const G4ParticleDefinition &part)
virtual void	PrepareWorkerPhysicsTable (const G4ParticleDefinition &)

Additional Inherited Members
Static Public Member Functions inherited from G4VProcess
static const G4String &	GetProcessTypeName (G4ProcessType)
Protected Member Functions inherited from G4VProcess
void	SubtractNumberOfInteractionLengthLeft (G4double previousStepSize)
void	ClearNumberOfInteractionLengthLeft ()
Protected Attributes inherited from G4VXTRenergyLoss
G4ParticleDefinition *	fPtrGamma
G4double *	fGammaCutInKineticEnergy
G4double	fGammaTkinCut
G4LogicalVolume *	fEnvelope
G4PhysicsTable *	fAngleDistrTable
G4PhysicsTable *	fEnergyDistrTable
G4PhysicsLogVector *	fProtonEnergyVector
G4PhysicsLogVector *	fXTREnergyVector
G4double	fTheMinEnergyTR
G4double	fTheMaxEnergyTR
G4double	fMinEnergyTR
G4double	fMaxEnergyTR
G4double	fTheMaxAngle
G4double	fTheMinAngle
G4double	fMaxThetaTR
G4int	fBinTR
G4double	fMinProtonTkin
G4double	fMaxProtonTkin
G4int	fTotBin
G4double	fGamma
G4double	fEnergy
G4double	fVarAngle
G4double	fLambda
G4double	fPlasmaCof
G4double	fCofTR
G4bool	fExitFlux
G4bool	fAngleRadDistr
G4bool	fCompton
G4double	fSigma1
G4double	fSigma2
G4int	fMatIndex1
G4int	fMatIndex2
G4int	fPlateNumber
G4double	fTotalDist
G4double	fPlateThick
G4double	fGasThick
G4double	fAlphaPlate
G4double	fAlphaGas
G4SandiaTable *	fPlatePhotoAbsCof
G4SandiaTable *	fGasPhotoAbsCof
G4ParticleChange	fParticleChange
G4PhysicsTable *	fAngleForEnergyTable
std::vector< G4PhysicsTable * >	fAngleBank
Protected Attributes inherited from G4VProcess
const G4ProcessManager *	aProcessManager
G4VParticleChange *	pParticleChange
G4ParticleChange	aParticleChange
G4double	theNumberOfInteractionLengthLeft
G4double	currentInteractionLength
G4double	theInitialNumberOfInteractionLength
G4String	theProcessName
G4String	thePhysicsTableFileName
G4ProcessType	theProcessType
G4int	theProcessSubType
G4double	thePILfactor
G4bool	enableAtRestDoIt
G4bool	enableAlongStepDoIt
G4bool	enablePostStepDoIt
G4int	verboseLevel

Detailed Description

Definition at line 48 of file G4XTRTransparentRegRadModel.hh.

Constructor & Destructor Documentation

G4XTRTransparentRegRadModel::G4XTRTransparentRegRadModel	(	G4LogicalVolume *	anEnvelope,
		G4Material *	foilMat,
		G4Material *	gasMat,
		G4double	a,
		G4double	b,
		G4int	n,
		const G4String &	processName = "XTRTransparentRegRadModel"
	)

Definition at line 40 of file G4XTRTransparentRegRadModel.cc.

References G4VXTRenergyLoss::fAlphaGas, G4VXTRenergyLoss::fAlphaPlate, G4VXTRenergyLoss::fExitFlux, G4cout, and G4endl.

                                                                      :
  G4VXTRenergyLoss(anEnvelope,foilMat,gasMat,a,b,n,processName)
{
  G4cout<<"Regular transparent X-ray TR  radiator EM process is called"<<G4endl;

  // Build energy and angular integral spectra of X-ray TR photons from
  // a radiator
  fExitFlux   = true;
  fAlphaPlate = 10000;
  fAlphaGas   = 1000;

  //  BuildTable();
}

G4XTRTransparentRegRadModel::~G4XTRTransparentRegRadModel

(

)

Definition at line 59 of file G4XTRTransparentRegRadModel.cc.

{
  ;
}

Member Function Documentation

G4double G4XTRTransparentRegRadModel::GetStackFactor ( G4double  energy, G4double  gamma, G4double  varAngle  )

virtual

Reimplemented from G4VXTRenergyLoss.

Definition at line 145 of file G4XTRTransparentRegRadModel.cc.

References G4VXTRenergyLoss::fGasThick, G4VXTRenergyLoss::fPlateNumber, G4VXTRenergyLoss::fPlateThick, G4VXTRenergyLoss::GetGasFormationZone(), G4VXTRenergyLoss::GetGasLinearPhotoAbs(), G4VXTRenergyLoss::GetPlateFormationZone(), G4VXTRenergyLoss::GetPlateLinearPhotoAbs(), and G4VXTRenergyLoss::OneInterfaceXTRdEdx().

{
  /*
  G4double result, Za, Zb, Ma, Mb, sigma;
  
  Za = GetPlateFormationZone(energy,gamma,varAngle);
  Zb = GetGasFormationZone(energy,gamma,varAngle);
  Ma = GetPlateLinearPhotoAbs(energy);
  Mb = GetGasLinearPhotoAbs(energy);
  sigma = Ma*fPlateThick + Mb*fGasThick;

  G4complex Ca(1.0+0.5*fPlateThick*Ma/fAlphaPlate,fPlateThick/Za/fAlphaPlate); 
  G4complex Cb(1.0+0.5*fGasThick*Mb/fAlphaGas,fGasThick/Zb/fAlphaGas); 

  G4complex Ha = std::pow(Ca,-fAlphaPlate);  
  G4complex Hb = std::pow(Cb,-fAlphaGas);
  G4complex H  = Ha*Hb;
  G4complex F1 =   (1.0 - Ha)*(1.0 - Hb )/(1.0 - H)
                 * G4double(fPlateNumber) ;
  G4complex F2 =   (1.0-Ha)*(1.0-Ha)*Hb/(1.0-H)/(1.0-H)
                 * (1.0 - std::exp(-0.5*fPlateNumber*sigma)) ;
  //    *(1.0 - std::pow(H,fPlateNumber)) ;
    G4complex R  = (F1 + F2)*OneInterfaceXTRdEdx(energy,gamma,varAngle);
  // G4complex R  = F2*OneInterfaceXTRdEdx(energy,gamma,varAngle);
  result       = 2.0*std::real(R);  
  return      result;
  */
   // numerically unstable result

  G4double result, Qa, Qb, Q, aZa, bZb, aMa, bMb, D, sigma; 
 
  aZa   = fPlateThick/GetPlateFormationZone(energy,gamma,varAngle);
  bZb   = fGasThick/GetGasFormationZone(energy,gamma,varAngle);
  aMa   = fPlateThick*GetPlateLinearPhotoAbs(energy);
  bMb   = fGasThick*GetGasLinearPhotoAbs(energy);
  sigma = aMa*fPlateThick + bMb*fGasThick;
  Qa    = std::exp(-0.5*aMa);
  Qb    = std::exp(-0.5*bMb);
  Q     = Qa*Qb;

  G4complex Ha( Qa*std::cos(aZa), -Qa*std::sin(aZa)   );  
  G4complex Hb( Qb*std::cos(bZb), -Qb*std::sin(bZb)    );
  G4complex H  = Ha*Hb;
  G4complex Hs = conj(H);
  D            = 1.0 /( (1 - Q)*(1 - Q) + 
                  4*Q*std::sin(0.5*(aZa + bZb))*std::sin(0.5*(aZa + bZb)) );
  G4complex F1 = (1.0 - Ha)*(1.0 - Hb)*(1.0 - Hs)
                 * G4double(fPlateNumber)*D;
  G4complex F2 = (1.0 - Ha)*(1.0 - Ha)*Hb*(1.0 - Hs)*(1.0 - Hs)
                   // * (1.0 - std::pow(H,fPlateNumber)) * D*D;
                 * (1.0 - std::exp(-0.5*fPlateNumber*sigma)) * D*D;
  G4complex R  = (F1 + F2)*OneInterfaceXTRdEdx(energy,gamma,varAngle);
  result       = 2.0*std::real(R); 
  return      result;
  
}

G4double G4XTRTransparentRegRadModel::SpectralXTRdEdx ( G4double  energy )

virtual

Reimplemented from G4VXTRenergyLoss.

Definition at line 68 of file G4XTRTransparentRegRadModel.cc.

References energy(), G4VXTRenergyLoss::fCompton, G4VXTRenergyLoss::fGamma, G4VXTRenergyLoss::fGasThick, G4VXTRenergyLoss::fPlateNumber, G4VXTRenergyLoss::fPlateThick, G4VXTRenergyLoss::fSigma1, G4VXTRenergyLoss::fSigma2, G4VXTRenergyLoss::GetGasCompton(), G4VXTRenergyLoss::GetGasLinearPhotoAbs(), G4VXTRenergyLoss::GetPlateCompton(), G4VXTRenergyLoss::GetPlateLinearPhotoAbs(), python.hepunit::hbarc, and python.hepunit::pi.

{
  G4double result, sum = 0., tmp, cof1, cof2, cofMin, cofPHC,aMa, bMb, sigma;
  G4int k, kMax, kMin;

  aMa = GetPlateLinearPhotoAbs(energy);
  bMb = GetGasLinearPhotoAbs(energy);

  if(fCompton)
  {
    aMa += GetPlateCompton(energy);
    bMb += GetGasCompton(energy);
  }
  aMa *= fPlateThick;
  bMb *= fGasThick;

  sigma = aMa + bMb;
   
  cofPHC  = 4*pi*hbarc;
  tmp     = (fSigma1 - fSigma2)/cofPHC/energy;  
  cof1    = fPlateThick*tmp;
  cof2    = fGasThick*tmp;

  cofMin  =  energy*(fPlateThick + fGasThick)/fGamma/fGamma;
  cofMin += (fPlateThick*fSigma1 + fGasThick*fSigma2)/energy;
  cofMin /= cofPHC;

  //  if (fGamma < 1200) kMin = G4int(cofMin);  // 1200 ?
  // else               kMin = 1;


  kMin = G4int(cofMin);
  if (cofMin > kMin) kMin++;

  // tmp  = (fPlateThick + fGasThick)*energy*fMaxThetaTR;
  // tmp /= cofPHC;
  // kMax = G4int(tmp);
  // if(kMax < 0) kMax = 0;
  // kMax += kMin;
  

  kMax = kMin + 19; // 5; // 9; //   kMin + G4int(tmp);

  // tmp /= fGamma;
  // if( G4int(tmp) < kMin ) kMin = G4int(tmp);
  // G4cout<<"kMin = "<<kMin<<";    kMax = "<<kMax<<G4endl;

  for( k = kMin; k <= kMax; k++ )
  {
    tmp    = pi*fPlateThick*(k + cof2)/(fPlateThick + fGasThick);
    result = (k - cof1)*(k - cof1)*(k + cof2)*(k + cof2);

    if( k == kMin && kMin == G4int(cofMin) )
    {
      sum   += 0.5*std::sin(tmp)*std::sin(tmp)*std::abs(k-cofMin)/result;
    }
    else
    {
      sum   += std::sin(tmp)*std::sin(tmp)*std::abs(k-cofMin)/result;
    }
    //  G4cout<<"k = "<<k<<";    sum = "<<sum<<G4endl;    
  }
  result = 4.*( cof1 + cof2 )*( cof1 + cof2 )*sum/energy;
  result *= ( 1. - std::exp(-fPlateNumber*sigma) )/( 1. - std::exp(-sigma) );  
  return result;
}

---

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

• G4XTRTransparentRegRadModel.hh
• G4XTRTransparentRegRadModel.cc