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G4ParticleHPFSFissionFS.cc
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25 //
26 // neutron_hp -- source file
27 // J.P. Wellisch, Nov-1996
28 // A prototype of the low energy neutron transport model.
29 //
30 // P. Arce, June-2014 Conversion neutron_hp to particle_hp
31 //
32 #include "G4ParticleHPFSFissionFS.hh"
33 #include "G4ParticleHPManager.hh"
34 #include "G4ReactionProduct.hh"
35 #include "G4Nucleus.hh"
36 #include "G4Proton.hh"
37 #include "G4Deuteron.hh"
38 #include "G4Triton.hh"
39 #include "G4Alpha.hh"
40 #include "G4ThreeVector.hh"
41 #include "G4Poisson.hh"
42 #include "G4LorentzVector.hh"
43 #include "G4ParticleHPDataUsed.hh"
44 
45  void G4ParticleHPFSFissionFS::Init (G4double A, G4double Z, G4int M, G4String & dirName, G4String &, G4ParticleDefinition* )
46  {
47  G4String tString = "/FS/";
48  G4bool dbool;
49  G4ParticleHPDataUsed aFile = theNames.GetName(static_cast<G4int>(A), static_cast<G4int>(Z), M, dirName, tString, dbool);
50  G4String filename = aFile.GetName();
51  SetAZMs( A, Z, M, aFile );
52  if(!dbool)
53  {
54  hasAnyData = false;
55  hasFSData = false;
56  hasXsec = false;
57  return;
58  }
59  //std::ifstream theData(filename, std::ios::in);
60  std::istringstream theData(std::ios::in);
61  G4ParticleHPManager::GetInstance()->GetDataStream(filename,theData);
62 
63  // here it comes
64  G4int infoType, dataType;
65  hasFSData = false;
66  while (theData >> infoType) // Loop checking, 11.05.2015, T. Koi
67  {
68  hasFSData = true;
69  theData >> dataType;
70  switch(infoType)
71  {
72  case 1:
73  if(dataType==4) theNeutronAngularDis.Init(theData);
74  if(dataType==5) thePromptNeutronEnDis.Init(theData);
75  if(dataType==12) theFinalStatePhotons.InitMean(theData);
76  if(dataType==14) theFinalStatePhotons.InitAngular(theData);
77  if(dataType==15) theFinalStatePhotons.InitEnergies(theData);
78  break;
79  case 2:
80  if(dataType==1) theFinalStateNeutrons.InitMean(theData);
81  break;
82  case 3:
83  if(dataType==1) theFinalStateNeutrons.InitDelayed(theData);
84  if(dataType==5) theDelayedNeutronEnDis.Init(theData);
85  break;
86  case 4:
87  if(dataType==1) theFinalStateNeutrons.InitPrompt(theData);
88  break;
89  case 5:
90  if(dataType==1) theEnergyRelease.Init(theData);
91  break;
92  default:
93  G4cout << "G4ParticleHPFSFissionFS::Init: unknown data type"<<dataType<<G4endl;
94  throw G4HadronicException(__FILE__, __LINE__, "G4ParticleHPFSFissionFS::Init: unknown data type");
95  break;
96  }
97  }
98  //targetMass = theFinalStateNeutrons.GetTargetMass();
99  //theData.close();
100  }
101 
102 
103  G4DynamicParticleVector * G4ParticleHPFSFissionFS::ApplyYourself(G4int nPrompt,
104  G4int nDelayed, G4double * theDecayConst)
105  {
106  G4int i;
107  G4DynamicParticleVector * aResult = new G4DynamicParticleVector;
108  G4ReactionProduct boosted;
109  boosted.Lorentz( *(fCache.Get().theNeutronRP) , *(fCache.Get().theTarget) );
110  G4double eKinetic = boosted.GetKineticEnergy();
111 
112 // Build neutrons
113  G4ReactionProduct * theNeutrons = new G4ReactionProduct[nPrompt+nDelayed];
114  for(i=0; i<nPrompt+nDelayed; i++)
115  {
116  theNeutrons[i].SetDefinition(G4Neutron::Neutron());
117  }
118 
119 // sample energies
120  G4int it, dummy;
121  G4double tempE;
122  for(i=0; i<nPrompt; i++)
123  {
124  tempE = thePromptNeutronEnDis.Sample(eKinetic, dummy); // energy distribution (file5) always in lab
125  theNeutrons[i].SetKineticEnergy(tempE);
126  }
127  for(i=nPrompt; i<nPrompt+nDelayed; i++)
128  {
129  theNeutrons[i].SetKineticEnergy(theDelayedNeutronEnDis.Sample(eKinetic, it)); // dito
130  if(it==0) theNeutrons[i].SetKineticEnergy(thePromptNeutronEnDis.Sample(eKinetic, dummy));
131  theDecayConst[i-nPrompt] = theFinalStateNeutrons.GetDecayConstant(it); // this is returned
132  }
133 
134 // sample neutron angular distribution
135  for(i=0; i<nPrompt+nDelayed; i++)
136  {
137  theNeutronAngularDis.SampleAndUpdate(theNeutrons[i]); // angular comes back in lab automatically
138  }
139 
140 // already in lab. Add neutrons to dynamic particle vector
141  for(i=0; i<nPrompt+nDelayed; i++)
142  {
143  G4DynamicParticle * dp = new G4DynamicParticle;
144  dp->SetDefinition(theNeutrons[i].GetDefinition());
145  dp->SetMomentum(theNeutrons[i].GetMomentum());
146  aResult->push_back(dp);
147  }
148  delete [] theNeutrons;
149 // return the result
150  return aResult;
151  }
152 
153 void G4ParticleHPFSFissionFS::SampleNeutronMult(G4int&all, G4int&Prompt, G4int&delayed, G4double eKinetic, G4int off)
154 {
155  G4double promptNeutronMulti = 0;
156  promptNeutronMulti = theFinalStateNeutrons.GetPrompt(eKinetic);
157  G4double delayedNeutronMulti = 0;
158  delayedNeutronMulti = theFinalStateNeutrons.GetDelayed(eKinetic);
159 
160  if(delayedNeutronMulti==0&&promptNeutronMulti==0)
161  {
162  Prompt = 0;
163  delayed = 0;
164  G4double totalNeutronMulti = theFinalStateNeutrons.GetMean(eKinetic);
165  all = G4Poisson(totalNeutronMulti-off);
166  all += off;
167  }
168  else
169  {
170  Prompt = G4Poisson(promptNeutronMulti-off);
171  Prompt += off;
172  delayed = G4Poisson(delayedNeutronMulti);
173  all = Prompt+delayed;
174  }
175 }
176 
177 G4DynamicParticleVector * G4ParticleHPFSFissionFS::GetPhotons()
178 {
179 // sample photons
180  G4ReactionProductVector * temp;
181  G4ReactionProduct boosted;
182 // the photon distributions are in the Nucleus rest frame.
183  boosted.Lorentz( *(fCache.Get().theNeutronRP) , *(fCache.Get().theTarget) );
184  G4double anEnergy = boosted.GetKineticEnergy();
185  temp = theFinalStatePhotons.GetPhotons(anEnergy);
186  if(temp == 0) { return 0; }
187 
188 // lorentz transform, and add photons to final state
189  unsigned int i;
190  G4DynamicParticleVector * result = new G4DynamicParticleVector;
191  for(i=0; i<temp->size(); i++)
192  {
193  // back to lab
194  temp->operator[](i)->Lorentz(*(temp->operator[](i)), -1.* (*(fCache.Get().theTarget)) );
195  G4DynamicParticle * theOne = new G4DynamicParticle;
196  theOne->SetDefinition(temp->operator[](i)->GetDefinition());
197  theOne->SetMomentum(temp->operator[](i)->GetMomentum());
198  result->push_back(theOne);
199  delete temp->operator[](i);
200  }
201  delete temp;
202  return result;
203 }
result
G4double G4ParticleHPJENDLHEData::G4double result
Definition: G4ParticleHPJENDLHEData.cc:257
G4LorentzVector.hh
G4ParticleHPManager::GetInstance
static G4ParticleHPManager * GetInstance()
Definition: G4ParticleHPManager.hh:56
G4Poisson
G4long G4Poisson(G4double mean)
Definition: G4Poisson.hh:51
G4DynamicParticle::SetMomentum
void SetMomentum(const G4ThreeVector &momentum)
Definition: G4DynamicParticle.cc:371
G4ReactionProduct::Lorentz
void Lorentz(const G4ReactionProduct &p1, const G4ReactionProduct &p2)
Definition: G4ReactionProduct.cc:206
G4Triton.hh
G4ParticleHPDataUsed.hh
G4ReactionProduct::SetKineticEnergy
void SetKineticEnergy(const G4double en)
Definition: G4ReactionProduct.hh:132
G4ParticleHPFSFissionFS.hh
G4Cache::Get
value_type & Get() const
Definition: G4Cache.hh:282
G4ParticleHPFinalState::SetAZMs
void SetAZMs(G4double anA, G4double aZ, G4int aM, G4ParticleHPDataUsed used)
Definition: G4ParticleHPFinalState.hh:102
G4ParticleHPFSFissionFS::SampleNeutronMult
void SampleNeutronMult(G4int &all, G4int &Prompt, G4int &delayed, G4double energy, G4int off)
Definition: G4ParticleHPFSFissionFS.cc:153
G4ParticleHPManager::GetDataStream
void GetDataStream(G4String, std::istringstream &iss)
Definition: G4ParticleHPManager.cc:100
G4int
int G4int
Definition: G4Types.hh:78
G4ParticleHPEnergyDistribution::Sample
G4double Sample(G4double anEnergy, G4int &it)
Definition: G4ParticleHPEnergyDistribution.hh:101
G4ParticleHPParticleYield::GetPrompt
G4double GetPrompt(G4double anEnergy)
Definition: G4ParticleHPParticleYield.hh:115
G4ReactionProduct::SetDefinition
void SetDefinition(const G4ParticleDefinition *aParticleDefinition)
Definition: G4ReactionProduct.cc:160
G4ReactionProductVector
std::vector< G4ReactionProduct * > G4ReactionProductVector
Definition: G4ReactionProductVector.hh:43
G4cout
G4GLOB_DLL std::ostream G4cout
A
double A(double temperature)
Definition: G4DNAElectronHoleRecombination.cc:60
G4ParticleHPAngular::SampleAndUpdate
void SampleAndUpdate(G4ReactionProduct &anIncidentParticle)
Definition: G4ParticleHPAngular.cc:100
G4ParticleHPPhotonDist::InitMean
G4bool InitMean(std::istream &aDataFile)
Definition: G4ParticleHPPhotonDist.cc:55
G4bool
bool G4bool
Definition: G4Types.hh:79
G4ParticleHPFSFissionFS::Init
void Init(G4double A, G4double Z, G4int M, G4String &dirName, G4String &aFSType, G4ParticleDefinition *)
Definition: G4ParticleHPFSFissionFS.cc:45
G4Nucleus.hh
G4Poisson.hh
G4Proton.hh
G4ParticleHPParticleYield::InitDelayed
void InitDelayed(std::istream &aDataFile)
Definition: G4ParticleHPParticleYield.hh:89
G4Alpha.hh
G4ParticleHPFSFissionFS::ApplyYourself
G4DynamicParticleVector * ApplyYourself(G4int Prompt, G4int delayed, G4double *decayconst)
Definition: G4ParticleHPFSFissionFS.cc:103
G4DynamicParticleVector
std::vector< G4DynamicParticle * > G4DynamicParticleVector
Definition: G4DynamicParticleVector.hh:43
G4ParticleHPFSFissionFS::GetPhotons
G4DynamicParticleVector * GetPhotons()
Definition: G4ParticleHPFSFissionFS.cc:177
G4Neutron::Neutron
static G4Neutron * Neutron()
Definition: G4Neutron.cc:104
G4Deuteron.hh
G4ReactionProduct::GetKineticEnergy
G4double GetKineticEnergy() const
Definition: G4ReactionProduct.hh:138
G4ParticleHPPhotonDist::GetPhotons
G4ReactionProductVector * GetPhotons(G4double anEnergy)
Definition: G4ParticleHPPhotonDist.cc:282
G4ParticleHPFissionERelease::Init
void Init(std::istream &aDataFile)
Definition: G4ParticleHPFissionERelease.hh:57
G4ParticleHPParticleYield::InitMean
void InitMean(std::istream &aDataFile)
Definition: G4ParticleHPParticleYield.hh:58
G4endl
#define G4endl
Definition: G4ios.hh:61
G4ParticleHPNames::GetName
G4ParticleHPDataUsed GetName(G4int A, G4int Z, G4String base, G4String rest, G4bool &active)
Definition: G4ParticleHPNames.hh:48
G4ParticleHPPhotonDist::InitEnergies
void InitEnergies(std::istream &aDataFile)
Definition: G4ParticleHPPhotonDist.cc:228
G4double
double G4double
Definition: G4Types.hh:76
G4DynamicParticle::SetDefinition
void SetDefinition(const G4ParticleDefinition *aParticleDefinition)
Definition: G4DynamicParticle.cc:305
G4ThreeVector.hh
G4ParticleHPAngular::Init
void Init(std::istream &aDataFile)
Definition: G4ParticleHPAngular.cc:41
G4ParticleHPPhotonDist::InitAngular
void InitAngular(std::istream &aDataFile)
Definition: G4ParticleHPPhotonDist.cc:122
G4ParticleHPParticleYield::GetDelayed
G4double GetDelayed(G4double anEnergy)
Definition: G4ParticleHPParticleYield.hh:125
G4ParticleHPParticleYield::GetMean
G4double GetMean(G4double anEnergy)
Definition: G4ParticleHPParticleYield.hh:106
Z
G4int Z
Definition: G4ParticleHPJENDLHEData.cc:262
G4ReactionProduct.hh
G4ParticleHPParticleYield::InitPrompt
void InitPrompt(std::istream &aDataFile)
Definition: G4ParticleHPParticleYield.hh:73
G4ParticleHPManager.hh