#include <G4BetaMinusDecay.hh>

Inheritance diagram for G4BetaMinusDecay:

Collaboration diagram for G4BetaMinusDecay:

Public Member Functions
	G4BetaMinusDecay (const G4ParticleDefinition *theParentNucleus, const G4double &theBR, const G4double &endpointE, const G4double &ex, const G4Ions::G4FloatLevelBase &flb, const G4BetaDecayType &type)

virtual	~G4BetaMinusDecay ()

virtual G4DecayProducts *	DecayIt (G4double)

virtual void	DumpNuclearInfo ()

Public Member Functions inherited from G4NuclearDecay
	G4NuclearDecay (const G4String &channelName, const G4RadioactiveDecayMode &mode, const G4double &excitation, const G4Ions::G4FloatLevelBase &floatingLevel)

virtual	~G4NuclearDecay ()

G4RadioactiveDecayMode	GetDecayMode ()

G4double	GetDaughterExcitation ()

G4Ions::G4FloatLevelBase	GetFloatingLevel ()

G4ParticleDefinition *	GetDaughterNucleus ()

void	SetHLThreshold (G4double HLT)

G4double	GetHLThreshold ()

Public Member Functions inherited from G4VDecayChannel
	G4VDecayChannel (const G4String &aName, G4int Verbose=1)

	G4VDecayChannel (const G4String &aName, const G4String &theParentName, G4double theBR, G4int theNumberOfDaughters, const G4String &theDaughterName1, const G4String &theDaughterName2="", const G4String &theDaughterName3="", const G4String &theDaughterName4="")

virtual	~G4VDecayChannel ()

G4int	operator== (const G4VDecayChannel &right) const

G4int	operator!= (const G4VDecayChannel &right) const

G4int	operator< (const G4VDecayChannel &right) const

const G4String &	GetKinematicsName () const

G4double	GetBR () const

G4int	GetNumberOfDaughters () const

G4ParticleDefinition *	GetParent ()

G4ParticleDefinition *	GetDaughter (G4int anIndex)

G4int	GetAngularMomentum ()

const G4String &	GetParentName () const

const G4String &	GetDaughterName (G4int anIndex) const

G4double	GetParentMass () const

G4double	GetDaughterMass (G4int anIndex) const

void	SetParent (const G4ParticleDefinition *particle_type)

void	SetParent (const G4String &particle_name)

void	SetBR (G4double value)

void	SetNumberOfDaughters (G4int value)

void	SetDaughter (G4int anIndex, const G4ParticleDefinition *particle_type)

void	SetDaughter (G4int anIndex, const G4String &particle_name)

void	SetVerboseLevel (G4int value)

G4int	GetVerboseLevel () const

void	DumpInfo ()

G4double	GetRangeMass () const

void	SetRangeMass (G4double val)

virtual G4bool	IsOKWithParentMass (G4double parentMass)

void	SetPolarization (const G4ThreeVector &)

const G4ThreeVector &	GetPolarization () const

Additional Inherited Members
Protected Member Functions inherited from G4VDecayChannel
void	ClearDaughtersName ()

void	CheckAndFillDaughters ()

void	CheckAndFillParent ()

	G4VDecayChannel ()

	G4VDecayChannel (const G4VDecayChannel &)

G4VDecayChannel &	operator= (const G4VDecayChannel &)

G4double	DynamicalMass (G4double massPDG, G4double width, G4double maxDev=+1.) const

Protected Attributes inherited from G4NuclearDecay
const G4RadioactiveDecayMode	theMode

Protected Attributes inherited from G4VDecayChannel
G4String	kinematics_name

G4double	rbranch

G4int	numberOfDaughters

G4String *	parent_name

G4String **	daughters_name

G4double	rangeMass

G4ThreeVector	parent_polarization

G4ParticleTable *	particletable

G4int	verboseLevel

G4ParticleDefinition *	G4MT_parent

G4ParticleDefinition **	G4MT_daughters

G4double	G4MT_parent_mass

G4double *	G4MT_daughters_mass

G4double *	G4MT_daughters_width

G4Mutex	daughtersMutex

G4Mutex	parentMutex

Static Protected Attributes inherited from G4VDecayChannel
static const G4String	noName = " "

Detailed Description

Definition at line 44 of file G4BetaMinusDecay.hh.

Constructor & Destructor Documentation

G4BetaMinusDecay::G4BetaMinusDecay	(	const G4ParticleDefinition *	theParentNucleus,
		const G4double &	theBR,
		const G4double &	endpointE,
		const G4double &	ex,
		const G4Ions::G4FloatLevelBase &	flb,
		const G4BetaDecayType &	type
	)

Definition at line 44 of file G4BetaMinusDecay.cc.

  : G4NuclearDecay("beta- decay", BetaMinus, excitationE, flb), endpointEnergy(e0)
 {
   SetParent(theParentNucleus);  // Store name of parent nucleus, delete G4MT_parent 
   SetBR(branch);
 
   SetNumberOfDaughters(3);
   G4IonTable* theIonTable =
     (G4IonTable*)(G4ParticleTable::GetParticleTable()->GetIonTable());
   G4int daughterZ = theParentNucleus->GetAtomicNumber() + 1;
   G4int daughterA = theParentNucleus->GetAtomicMass();
   SetDaughter(0, theIonTable->GetIon(daughterZ, daughterA, excitationE, flb) );
   SetDaughter(1, "e-");
   SetDaughter(2, "anti_nu_e");
 
   SetUpBetaSpectrumSampler(daughterZ, daughterA, betaType);
 }

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G4BetaMinusDecay::~G4BetaMinusDecay ( )

virtual

Definition at line 67 of file G4BetaMinusDecay.cc.

 {
   delete spectrumSampler;
 }

Member Function Documentation

G4DecayProducts * G4BetaMinusDecay::DecayIt ( G4double )

virtual

Implements G4VDecayChannel.

Definition at line 73 of file G4BetaMinusDecay.cc.

 {
   // Fill G4MT_parent with theParentNucleus (stored by SetParent in ctor)  
   CheckAndFillParent();
 
   // Fill G4MT_daughters with e-, nu and residual nucleus (stored by SetDaughter)  
   CheckAndFillDaughters();
 
   G4double parentMass = G4MT_parent->GetPDGMass();
   G4double eMass = G4MT_daughters[1]->GetPDGMass();
   G4double nucleusMass = G4MT_daughters[0]->GetPDGMass();
   // Set up final state
   // parentParticle is set at rest here because boost with correct momentum 
   // is done later
   G4DynamicParticle parentParticle(G4MT_parent, G4ThreeVector(0,0,0), 0.0);
   G4DecayProducts* products = new G4DecayProducts(parentParticle);
 
   if (spectrumSampler) {
     // Electron, neutrino and daughter nucleus energies
     G4double eKE = endpointEnergy*spectrumSampler->shoot(G4Random::getTheEngine() );
     G4double eMomentum = std::sqrt(eKE*(eKE + 2.*eMass) );
 
     G4double cosThetaENu = 2.*G4UniformRand() - 1.;
     G4double eTE = eMass + eKE;
     G4double nuEnergy = ((endpointEnergy - eKE)*(parentMass + nucleusMass - eTE)
             - eMomentum*eMomentum)/(parentMass - eTE + eMomentum*cosThetaENu)/2.;
 
     // Electron 4-vector, isotropic angular distribution
     G4double cosTheta = 2.*G4UniformRand() - 1.0;
     G4double sinTheta = std::sqrt(1.0 - cosTheta*cosTheta);
 
     G4double phi = twopi*G4UniformRand()*rad;
     G4double sinPhi = std::sin(phi);
     G4double cosPhi = std::cos(phi);
 
     G4ParticleMomentum eDirection(sinTheta*cosPhi, sinTheta*sinPhi, cosTheta);
     G4DynamicParticle* dynamicElectron
       = new G4DynamicParticle(G4MT_daughters[1], eDirection*eMomentum);
     products->PushProducts(dynamicElectron);
 
     // Neutrino 4-vector
     G4double sinThetaENu = std::sqrt(1.0 - cosThetaENu*cosThetaENu);
     phi = twopi*G4UniformRand()*rad;
     G4double sinPhiNu = std::sin(phi);
     G4double cosPhiNu = std::cos(phi);
 
     G4ParticleMomentum nuDirection;
     nuDirection.setX(sinThetaENu*cosPhiNu*cosTheta*cosPhi -
                      sinThetaENu*sinPhiNu*sinPhi + cosThetaENu*sinTheta*cosPhi);
     nuDirection.setY(sinThetaENu*cosPhiNu*cosTheta*sinPhi +
                      sinThetaENu*sinPhiNu*cosPhi + cosThetaENu*sinTheta*sinPhi);
     nuDirection.setZ(-sinThetaENu*cosPhiNu*sinTheta + cosThetaENu*cosTheta);
 
     G4DynamicParticle* dynamicNeutrino
       = new G4DynamicParticle(G4MT_daughters[2], nuDirection*nuEnergy);
     products->PushProducts(dynamicNeutrino);
 
     // Daughter nucleus 4-vector
     // p_D = - p_e - p_nu
     G4DynamicParticle* dynamicDaughter =
       new G4DynamicParticle(G4MT_daughters[0],
                             -eDirection*eMomentum - nuDirection*nuEnergy);
     products->PushProducts(dynamicDaughter);
 
   } else {
     // electron energy below threshold -> no decay
     G4DynamicParticle* noDecay =
       new G4DynamicParticle(G4MT_parent, G4ThreeVector(0,0,0), 0.0);
     products->PushProducts(noDecay);
   }
 
   // Check energy conservation against Q value, not nuclear masses
   /*
   G4int nProd = products->entries();
   G4DynamicParticle* temp = 0;
   G4double Esum = 0.0;
   for (G4int i = 0; i < nProd; i++) {
     temp = products->operator[](i);
     // G4cout << temp->GetParticleDefinition()->GetParticleName() << " has " 
     //        << temp->GetTotalEnergy()/keV << " keV " << G4endl;
     Esum += temp->GetKineticEnergy();
   }
   G4double eCons = (endpointEnergy - Esum)/keV;
   if (std::abs(eCons) > 0.001) G4cout << " Beta- check: eCons = " << eCons << G4endl;
   */
   return products;
 }

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void G4BetaMinusDecay::DumpNuclearInfo ( )

virtual

Implements G4NuclearDecay.

Definition at line 198 of file G4BetaMinusDecay.cc.

 {
   G4cout << " G4BetaMinusDecay for parent nucleus " << GetParentName() << G4endl;
   G4cout << " decays to " << GetDaughterName(0) << " , " << GetDaughterName(1) 
          << " and " << GetDaughterName(2) << " with branching ratio " << GetBR()
          << "% and endpoint energy " << endpointEnergy/keV << " keV " << G4endl;
 }

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

geant4.10.03.p01/source/processes/hadronic/models/radioactive_decay/include/G4BetaMinusDecay.hh
geant4.10.03.p01/source/processes/hadronic/models/radioactive_decay/src/G4BetaMinusDecay.cc

Public Member Functions

Additional Inherited Members

Detailed Description

Constructor & Destructor Documentation

Member Function Documentation