Geant4 11.2.2
Toolkit for the simulation of the passage of particles through matter
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G4SFDecay.cc
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26////////////////////////////////////////////////////////////////////////////////
27// //
28// File: G4SFDecay.cc //
29// Author: D.H. Wright (SLAC) //
30// Date: 27 March 2019 //
31// //
32////////////////////////////////////////////////////////////////////////////////
33
34#include "G4SFDecay.hh"
35#include "G4fissionEvent.hh"
36#include "G4IonTable.hh"
37#include "G4ThreeVector.hh"
38#include "G4LorentzVector.hh"
39#include "G4DynamicParticle.hh"
40#include "G4DecayProducts.hh"
41#include "G4Neutron.hh"
42#include "G4Gamma.hh"
43#include "G4SystemOfUnits.hh"
45
46
48 const G4double& branch, const G4double& Qvalue,
49 const G4double& excitationE,
50 const G4Ions::G4FloatLevelBase& flb)
51 : G4NuclearDecay("SF decay", SpFission, excitationE, flb), transitionQ(Qvalue)
52{
53 SetParent(theParentNucleus); // Store name of parent nucleus, delete G4MT_parent
54 SetBR(branch);
55
56 parentZ = theParentNucleus->GetAtomicNumber();
57 parentA = theParentNucleus->GetAtomicMass();
58
59// SetNumberOfDaughters(0); doesn't seem to work
60// Set to 1 for now
61// When we later install proper fragment generation, set this to 2
62// and modify Z and A in DecayIt()
64 G4IonTable* theIonTable =
66 SetDaughter(0, theIonTable->GetIon(parentZ, parentA, excitationE, flb) );
67}
68
69
72
73
75{
76 // Fill G4MT_parent with theParentNucleus (stored by SetParent in ctor)
78
79 // Set up final state
80 // parentParticle is set at rest here because boost with correct momentum
81 // is done later
83 G4ThreeVector(0.,0.,0.) );
84 G4DynamicParticle parentParticle(G4MT_parent, atRest);
85 G4DecayProducts* products = new G4DecayProducts(parentParticle);
86
87 // Generate LLNL code for parent nucleus
90
91 // Let G4fissionEvent do the decay
92 // Argument 2 : time, passed through to set time of secondary
93 // Argument 3 : nubar, when set to -1, selects spontaneous fission
94 // Argument 4 : energy used in Watt spectrum
95 G4fissionEvent aFission(code, 10.0, -1, 0.);
96 G4int nNeut = aFission.getNeutronNu();
97 G4int nGam = aFission.getPhotonNu();
98
99 G4DynamicParticle* dynPart = 0;
100 G4ThreeVector direction(0.,0.,0.);
101 G4double KE = 0.; // energy from generator is in MeV
102
103 if (nNeut > 0) {
104 // Put neutrons on the stack
105 for (G4int i = 0; i < nNeut; i++) {
106 KE = aFission.getNeutronEnergy(i);
107 direction.setX(aFission.getNeutronDircosu(i) );
108 direction.setY(aFission.getNeutronDircosv(i) );
109 direction.setZ(aFission.getNeutronDircosw(i) );
110
111 dynPart = new G4DynamicParticle(G4Neutron::Neutron(), direction, KE);
112
113 // Not needed - time comes from parent track
114 // dynPart->SetProperTime(aFission.getNeutronAge(i) );
115
116 products->PushProducts(dynPart);
117 }
118
119 // Put gammas on the stack
120 for (G4int i = 0; i < nGam; i++) {
121 KE = aFission.getPhotonEnergy(i);
122 direction.setX(aFission.getPhotonDircosu(i) );
123 direction.setY(aFission.getPhotonDircosv(i) );
124 direction.setZ(aFission.getPhotonDircosw(i) );
125
126 dynPart = new G4DynamicParticle(G4Gamma::Gamma(), direction, KE);
127
128 // Not needed - time comes from parent track
129 // dynPart->SetProperTime(aFission.getPhotonAge(i) );
130
131 products->PushProducts(dynPart);
132 // No residual nucleus in this model
133 }
134
135 } else {
136 // No data for this isotope, return parent nucleus for now
137// G4cout << " No fission data for this isotope " << G4endl;
138 G4DynamicParticle* parent =
140 products->PushProducts(parent);
141 }
142
143 // Energy conservation check not valid in this model
144
145 return products;
146}
147
148
150{
151 G4cout << " G4SFDecay for parent nucleus " << GetParentName() << G4endl;
152 G4cout << " decays to neutrons and gammas, with branching ratio " << GetBR()
153 << "% and Q value " << transitionQ << G4endl;
154}
155
CLHEP::Hep3Vector G4ThreeVector
double G4double
Definition G4Types.hh:83
int G4int
Definition G4Types.hh:85
#define G4endl
Definition G4ios.hh:67
G4GLOB_DLL std::ostream G4cout
void setY(double)
void setZ(double)
void setX(double)
G4int PushProducts(G4DynamicParticle *aParticle)
static G4Gamma * Gamma()
Definition G4Gamma.cc:81
G4ParticleDefinition * GetIon(G4int Z, G4int A, G4int lvl=0)
G4FloatLevelBase
Definition G4Ions.hh:80
static G4Neutron * Neutron()
Definition G4Neutron.cc:101
G4int GetAtomicNumber() const
G4int GetAtomicMass() const
static G4ParticleTable * GetParticleTable()
virtual ~G4SFDecay()
Definition G4SFDecay.cc:70
G4SFDecay(const G4ParticleDefinition *theParentNucleus, const G4double &theBR, const G4double &Qvalue, const G4double &excitation, const G4Ions::G4FloatLevelBase &flb)
Definition G4SFDecay.cc:47
virtual G4DecayProducts * DecayIt(G4double)
Definition G4SFDecay.cc:74
virtual void DumpNuclearInfo()
Definition G4SFDecay.cc:149
G4double GetBR() const
const G4String & GetParentName() const
void SetBR(G4double value)
void SetNumberOfDaughters(G4int value)
G4ParticleDefinition * G4MT_parent
void SetDaughter(G4int anIndex, const G4ParticleDefinition *particle_type)
void SetParent(const G4ParticleDefinition *particle_type)
G4double getPhotonDircosu(G4int index)
G4double getNeutronEnergy(G4int index)
G4double getPhotonEnergy(G4int index)
G4double getNeutronDircosv(G4int index)
G4double getPhotonDircosw(G4int index)
G4double getNeutronDircosw(G4int index)
G4double getNeutronDircosu(G4int index)
G4double getPhotonDircosv(G4int index)