G4AntiHyperH4 Class Reference

#include <G4AntiHyperH4.hh>

Inheritance diagram for G4AntiHyperH4:

Static Public Member Functions
static G4AntiHyperH4 *	Definition ()
static G4AntiHyperH4 *	AntiHyperH4Definition ()
static G4AntiHyperH4 *	AntiHyperH4 ()
Static Public Member Functions inherited from G4Ions
static G4Ions::G4FloatLevelBase	FloatLevelBase (char flbChar)
static G4Ions::G4FloatLevelBase	FloatLevelBase (G4int flbIdx)
static char	FloatLevelBaseChar (G4Ions::G4FloatLevelBase flb)
Static Public Member Functions inherited from G4ParticleDefinition
static const G4PDefManager &	GetSubInstanceManager ()
static void	Clean ()

Additional Inherited Members
Public Types inherited from G4Ions
enum class	G4FloatLevelBase {   no_Float = 0 , plus_X , plus_Y , plus_Z ,   plus_U , plus_V , plus_W , plus_R ,   plus_S , plus_T , plus_A , plus_B ,   plus_C , plus_D , plus_E }
Public Member Functions inherited from G4Ions
	G4Ions (const G4String &aName, G4double mass, G4double width, G4double charge, G4int iSpin, G4int iParity, G4int iConjugation, G4int iIsospin, G4int iIsospin3, G4int gParity, const G4String &pType, G4int lepton, G4int baryon, G4int encoding, G4bool stable, G4double lifetime, G4DecayTable *decaytable, G4bool shortlived, const G4String &subType="", G4int anti_encoding=0, G4double excitation=0.0, G4int isomer=0)
	~G4Ions () override=default
G4Ions *	IonsDefinition ()
G4Ions *	Ions ()
G4double	GetExcitationEnergy () const
G4int	GetIsomerLevel () const
G4Ions::G4FloatLevelBase	GetFloatLevelBase () const
G4int	GetFloatLevelBaseIndex () const
void	SetFloatLevelBase (G4Ions::G4FloatLevelBase flb)
void	SetFloatLevelBase (char flbChar)
void	SetFloatLevelBase (G4int flbIdx)
Public Member Functions inherited from G4ParticleDefinition
	G4ParticleDefinition (const G4String &aName, G4double mass, G4double width, G4double charge, G4int iSpin, G4int iParity, G4int iConjugation, G4int iIsospin, G4int iIsospinZ, G4int gParity, const G4String &pType, G4int lepton, G4int baryon, G4int encoding, G4bool stable, G4double lifetime, G4DecayTable *decaytable, G4bool shortlived=false, const G4String &subType="", G4int anti_encoding=0, G4double magneticMoment=0.0)
virtual	~G4ParticleDefinition ()
	G4ParticleDefinition (const G4ParticleDefinition &)=delete
G4ParticleDefinition &	operator= (const G4ParticleDefinition &)=delete
G4bool	operator== (const G4ParticleDefinition &right) const
G4bool	operator!= (const G4ParticleDefinition &right) const
const G4String &	GetParticleName () const
G4double	GetPDGMass () const
G4double	GetPDGWidth () const
G4double	GetPDGCharge () const
G4double	GetPDGSpin () const
G4int	GetPDGiSpin () const
G4int	GetPDGiParity () const
G4int	GetPDGiConjugation () const
G4double	GetPDGIsospin () const
G4double	GetPDGIsospin3 () const
G4int	GetPDGiIsospin () const
G4int	GetPDGiIsospin3 () const
G4int	GetPDGiGParity () const
G4double	GetPDGMagneticMoment () const
void	SetPDGMagneticMoment (G4double mageticMoment)
G4double	CalculateAnomaly () const
const G4String &	GetParticleType () const
const G4String &	GetParticleSubType () const
G4int	GetLeptonNumber () const
G4int	GetBaryonNumber () const
G4int	GetPDGEncoding () const
G4int	GetAntiPDGEncoding () const
void	SetAntiPDGEncoding (G4int aEncoding)
G4int	GetQuarkContent (G4int flavor) const
G4int	GetAntiQuarkContent (G4int flavor) const
G4bool	IsShortLived () const
G4bool	GetPDGStable () const
void	SetPDGStable (const G4bool aFlag)
G4double	GetPDGLifeTime () const
void	SetPDGLifeTime (G4double aLifeTime)
G4double	GetIonLifeTime () const
G4DecayTable *	GetDecayTable () const
void	SetDecayTable (G4DecayTable *aDecayTable)
G4ProcessManager *	GetProcessManager () const
void	SetProcessManager (G4ProcessManager *aProcessManager)
G4VTrackingManager *	GetTrackingManager () const
void	SetTrackingManager (G4VTrackingManager *aTrackingManager)
G4ParticleTable *	GetParticleTable () const
G4int	GetAtomicNumber () const
G4int	GetAtomicMass () const
void	DumpTable () const
void	SetVerboseLevel (G4int value)
G4int	GetVerboseLevel () const
void	SetApplyCutsFlag (G4bool)
G4bool	GetApplyCutsFlag () const
G4bool	IsGeneralIon () const
G4bool	IsMuonicAtom () const
G4ProcessManager *	GetMasterProcessManager () const
void	SetMasterProcessManager (G4ProcessManager *aNewPM)
G4int	GetInstanceID () const
void	SetParticleDefinitionID (G4int id=-1)
G4int	GetParticleDefinitionID () const
G4bool	IsHypernucleus () const
G4int	GetNumberOfLambdasInHypernucleus () const
G4bool	IsAntiHypernucleus () const
G4int	GetNumberOfAntiLambdasInAntiHypernucleus () const
Protected Types inherited from G4ParticleDefinition
enum	{ NumberOfQuarkFlavor = 6 }
Protected Member Functions inherited from G4Ions
	G4Ions ()=default
Protected Member Functions inherited from G4ParticleDefinition
	G4ParticleDefinition ()
G4int	FillQuarkContents ()
void	SetParticleSubType (const G4String &subtype)
void	SetAtomicNumber (G4int)
void	SetAtomicMass (G4int)
Protected Attributes inherited from G4ParticleDefinition
G4int	theQuarkContent [NumberOfQuarkFlavor]
G4int	theAntiQuarkContent [NumberOfQuarkFlavor]
G4bool	isGeneralIon = false
G4bool	isMuonicAtom = false

Detailed Description

Definition at line 35 of file G4AntiHyperH4.hh.

Member Function Documentation

AntiHyperH4()

G4AntiHyperH4 * G4AntiHyperH4::AntiHyperH4 ( )

static

Definition at line 125 of file G4AntiHyperH4.cc.

{
  return Definition();
}

Referenced by G4IonConstructor::ConstructHyperNuclei().

AntiHyperH4Definition()

G4AntiHyperH4 * G4AntiHyperH4::AntiHyperH4Definition ( )

static

Definition at line 120 of file G4AntiHyperH4.cc.

{
  return Definition();
}

Definition()

G4AntiHyperH4 * G4AntiHyperH4::Definition ( )

static

Definition at line 43 of file G4AntiHyperH4.cc.

{
  if (theInstance != nullptr) return theInstance;
  const G4String name = "anti_hyperH4";
  // search in particle table
  G4ParticleTable* pTable = G4ParticleTable::GetParticleTable();
  auto anInstance = static_cast<G4Ions*>(pTable->FindParticle(name));
  if (anInstance == nullptr) {
    // create particle
    //
    //    Arguments for constructor are as follows
    //                            name             mass           width         charge
    //                          2*spin           parity   C-conjugation
    //                       2*Isospin       2*Isospin3        G-parity
    //                            type    lepton number   baryon number   PDG encoding
    //                          stable         lifetime     decay table
    //                      shortlived          subType   anti_encoding
    //                      excitation
 
    // clang-format off
    anInstance = new G4Ions(      name,     3922.40*MeV, 2.501e-12*MeV,   -1.0*eplus,
                                     4,              +1,             0,
                                     0,               0,             0,
                        "anti_nucleus",               0,            -4,  -1010010040,
                                 false,       0.2631*ns,       nullptr,
                         false,        "static",    1010010040, 
                           0.0,                0                             );
    // clang-format on
 
    // Magnetic Moment
    G4double mN = eplus * hbar_Planck / 2.0 / (proton_mass_c2 / c_squared);
    anInstance->SetPDGMagneticMoment(2.97896248 * mN);
 
    // create Decay Table
    auto table = new G4DecayTable;
    // create decay channels
    /*
    // The decay "mode[3]" produces the secondary "anti_H4" which is not existing
    // in Geant4: we therefore skip it for the time being (similarly for hyperH4,
    // to keep the symmetry between particle and anti-particle).
    const G4double half_br_lambda_to_p_pim = 0.5*0.639;
    const G4double half_br_lambda_to_n_piz = 0.5*0.358;
    G4VDecayChannel** mode = new G4VDecayChannel*[4];
    // anti_lambda -> anti_proton + pi+ , with 50% probability of capturing the anti_proton
    mode[0] = new G4PhaseSpaceDecayChannel( "anti_hyperH4", half_br_lambda_to_p_pim, 3,
                                            "anti_triton", "anti_proton", "pi+" );
    mode[1] = new G4PhaseSpaceDecayChannel( "anti_hyperH4", half_br_lambda_to_p_pim, 2,
                                            "anti_alpha", "pi+" );
    // anti_lambda -> anti_neutron + pi0 , with 50% probability of capturing the anti_neutron
    mode[2] = new G4PhaseSpaceDecayChannel( "anti_hyperH4", half_br_lambda_to_n_piz, 3,
                                            "anti_triton", "anti_neutron", "pi0" );
    mode[3] = new G4PhaseSpaceDecayChannel( "anti_hyperH4", half_br_lambda_to_n_piz, 2,
                                            "anti_H4", "pi0" );
    for ( G4int index = 0; index < 4; ++index ) table->Insert( mode[index] );
    */
    // Replacement decay for the time being
    const G4double half_br_lambda_to_p_pim = 0.5 * 0.639;
    const G4double br_lambda_to_n_piz = 0.358;
    auto mode = new G4VDecayChannel*[3];
    // anti_lambda -> anti_proton + pi+ , with 50% probability of capturing the anti_proton
    mode[0] = new G4PhaseSpaceDecayChannel("anti_hyperH4", half_br_lambda_to_p_pim, 3,
                                           "anti_triton", "anti_proton", "pi+");
    mode[1] =
      new G4PhaseSpaceDecayChannel("anti_hyperH4", half_br_lambda_to_p_pim, 2, "anti_alpha", "pi+");
    // anti_lambda -> anti_neutron + pi0 , with 0% probability of capturing the anti_neutron
    mode[2] = new G4PhaseSpaceDecayChannel("anti_hyperH4", br_lambda_to_n_piz, 3, "anti_triton",
                                           "anti_neutron", "pi0");
    for (G4int index = 0; index < 3; ++index)
      table->Insert(mode[index]);
    //---
    delete[] mode;
    anInstance->SetDecayTable(table);
  }
  theInstance = static_cast<G4AntiHyperH4*>(anInstance);
  return theInstance;
}

Referenced by AntiHyperH4(), AntiHyperH4Definition(), and G4GeneratorPrecompoundInterface::PropagateNuclNucl().

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

• G4AntiHyperH4.hh
• G4AntiHyperH4.cc