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G4ParticleHPCapture.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 // 070523 bug fix for G4FPE_DEBUG on by A. Howard ( and T. Koi)
31 //
32 // P. Arce, June-2014 Conversion neutron_hp to particle_hp
33 //
34 #include "G4ParticleHPCapture.hh"
35 #include "G4ParticleHPManager.hh"
36 #include "G4SystemOfUnits.hh"
37 #include "G4ParticleHPCaptureFS.hh"
39 #include "G4ParticleTable.hh"
40 #include "G4IonTable.hh"
41 #include "G4Threading.hh"
42 
44  :G4HadronicInteraction("NeutronHPCapture")
45  ,theCapture(NULL)
46  ,numEle(0)
47  {
48  SetMinEnergy( 0.0 );
49  SetMaxEnergy( 20.*MeV );
50 /*
51 // G4cout << "Capture : start of construction!!!!!!!!"<<G4endl;
52  if(!getenv("G4NEUTRONHPDATA"))
53  throw G4HadronicException(__FILE__, __LINE__, "Please setenv G4NEUTRONHPDATA to point to the neutron cross-section files.");
54  dirName = getenv("G4NEUTRONHPDATA");
55  G4String tString = "/Capture";
56  dirName = dirName + tString;
57  numEle = G4Element::GetNumberOfElements();
58 // G4cout << "+++++++++++++++++++++++++++++++++++++++++++++++++"<<G4endl;
59 // G4cout <<"Disname="<<dirName<<" numEle="<<numEle<<G4endl;
60  //theCapture = new G4ParticleHPChannel[numEle];
61 // G4cout <<"G4ParticleHPChannel constructed"<<G4endl;
62  G4ParticleHPCaptureFS * theFS = new G4ParticleHPCaptureFS;
63  //for (G4int i=0; i<numEle; i++)
64  //{
65 // // G4cout << "initializing theCapture "<<i<<" "<< numEle<<G4endl;
66  // theCapture[i].Init((*(G4Element::GetElementTable()))[i], dirName);
67  // theCapture[i].Register(theFS);
68  //}
69  for ( G4int i = 0 ; i < numEle ; i++ )
70  {
71  theCapture.push_back( new G4ParticleHPChannel );
72  (*theCapture[i]).Init((*(G4Element::GetElementTable()))[i], dirName);
73  (*theCapture[i]).Register(theFS);
74  }
75  delete theFS;
76 // G4cout << "-------------------------------------------------"<<G4endl;
77 // G4cout << "Leaving G4ParticleHPCapture::G4ParticleHPCapture"<<G4endl;
78 */
79  }
80 
82  {
83  //delete [] theCapture;
84  //vector is shared, only master deletes
85  if ( ! G4Threading::IsWorkerThread() ) {
86  if ( theCapture != NULL ) {
87  for ( std::vector<G4ParticleHPChannel*>::iterator
88  ite = theCapture->begin() ; ite != theCapture->end() ; ite++ ) {
89  delete *ite;
90  }
91  theCapture->clear();
92  }
93  }
94  }
95 
98  {
99 
100  //if ( numEle < (G4int)G4Element::GetNumberOfElements() ) addChannelForNewElement();
101 
103  if(getenv("NeutronHPCapture")) G4cout <<" ####### G4ParticleHPCapture called"<<G4endl;
104  const G4Material * theMaterial = aTrack.GetMaterial();
105  G4int n = theMaterial->GetNumberOfElements();
106  G4int index = theMaterial->GetElement(0)->GetIndex();
107  if(n!=1)
108  {
109  G4double* xSec = new G4double[n];
110  G4double sum=0;
111  G4int i;
112  const G4double * NumAtomsPerVolume = theMaterial->GetVecNbOfAtomsPerVolume();
113  G4double rWeight;
114  G4ParticleHPThermalBoost aThermalE;
115  for (i=0; i<n; i++)
116  {
117  index = theMaterial->GetElement(i)->GetIndex();
118  rWeight = NumAtomsPerVolume[i];
119  //xSec[i] = theCapture[index].GetXsec(aThermalE.GetThermalEnergy(aTrack,
120  xSec[i] = ((*theCapture)[index])->GetXsec(aThermalE.GetThermalEnergy(aTrack,
121  theMaterial->GetElement(i),
122  theMaterial->GetTemperature()));
123  xSec[i] *= rWeight;
124  sum+=xSec[i];
125  }
126  G4double random = G4UniformRand();
127  G4double running = 0;
128  for (i=0; i<n; i++)
129  {
130  running += xSec[i];
131  index = theMaterial->GetElement(i)->GetIndex();
132  //if(random<=running/sum) break;
133  if( sum == 0 || random <= running/sum ) break;
134  }
135  if(i==n) i=std::max(0, n-1);
136  delete [] xSec;
137  }
138 
139  //return theCapture[index].ApplyYourself(aTrack);
140  //G4HadFinalState* result = theCapture[index].ApplyYourself(aTrack);
141  G4HadFinalState* result = ((*theCapture)[index])->ApplyYourself(aTrack);
142 
143  //Overwrite target parameters
144  aNucleus.SetParameters(G4ParticleHPManager::GetInstance()->GetReactionWhiteBoard()->GetTargA(),G4ParticleHPManager::GetInstance()->GetReactionWhiteBoard()->GetTargZ());
145  const G4Element* target_element = (*G4Element::GetElementTable())[index];
146  const G4Isotope* target_isotope=NULL;
147  G4int iele = target_element->GetNumberOfIsotopes();
148  for ( G4int j = 0 ; j != iele ; j++ ) {
149  target_isotope=target_element->GetIsotope( j );
150  if ( target_isotope->GetN() == G4ParticleHPManager::GetInstance()->GetReactionWhiteBoard()->GetTargA() ) break;
151  }
152  //G4cout << "Target Material of this reaction is " << theMaterial->GetName() << G4endl;
153  //G4cout << "Target Element of this reaction is " << target_element->GetName() << G4endl;
154  //G4cout << "Target Isotope of this reaction is " << target_isotope->GetName() << G4endl;
155  aNucleus.SetIsotope( target_isotope );
156 
158  return result;
159  }
160 
161 const std::pair<G4double, G4double> G4ParticleHPCapture::GetFatalEnergyCheckLevels() const
162 {
163  //return std::pair<G4double, G4double>(10*perCent,10*GeV);
164  return std::pair<G4double, G4double>(10*perCent,DBL_MAX);
165 }
166 
167 /*
168 void G4ParticleHPCapture::addChannelForNewElement()
169 {
170  G4ParticleHPCaptureFS* theFS = new G4ParticleHPCaptureFS;
171  for ( G4int i = numEle ; i < (G4int)G4Element::GetNumberOfElements() ; i++ )
172  {
173  G4cout << "G4ParticleHPCapture Prepairing Data for the new element of " << (*(G4Element::GetElementTable()))[i]->GetName() << G4endl;
174  theCapture.push_back( new G4ParticleHPChannel );
175  (*theCapture[i]).Init((*(G4Element::GetElementTable()))[i], dirName);
176  (*theCapture[i]).Register(theFS);
177  }
178  delete theFS;
179  numEle = (G4int)G4Element::GetNumberOfElements();
180 }
181 */
182 
184 {
186 }
188 {
190 }
191 
193 {
194 
196 
197  theCapture = hpmanager->GetCaptureFinalStates();
198 
199  if ( G4Threading::IsMasterThread() ) {
200 
201  if ( theCapture == NULL ) theCapture = new std::vector<G4ParticleHPChannel*>;
202 
203  if ( numEle == (G4int)G4Element::GetNumberOfElements() ) return;
204 
205  if ( theCapture->size() == G4Element::GetNumberOfElements() ) {
207  return;
208  }
209 
210  if ( !getenv("G4NEUTRONHPDATA") )
211  throw G4HadronicException(__FILE__, __LINE__, "Please setenv G4NEUTRONHPDATA to point to the neutron cross-section files.");
212  dirName = getenv("G4NEUTRONHPDATA");
213  G4String tString = "/Capture";
214  dirName = dirName + tString;
215 
217  for ( G4int i = numEle ; i < (G4int)G4Element::GetNumberOfElements() ; i++ )
218  {
219  theCapture->push_back( new G4ParticleHPChannel );
220  ((*theCapture)[i])->Init((*(G4Element::GetElementTable()))[i], dirName);
221  ((*theCapture)[i])->Register(theFS);
222  }
223  delete theFS;
224  hpmanager->RegisterCaptureFinalStates( theCapture );
225  }
227 }
228 
229 void G4ParticleHPCapture::ModelDescription(std::ostream& outFile) const
230 {
231  outFile << "High Precision model based on Evaluated Nuclear Data Files (ENDF) for radiative capture reaction of neutrons below 20MeV\n";
232 }
G4double G4ParticleHPJENDLHEData::G4double result
static G4ParticleHPManager * GetInstance()
size_t GetNumberOfIsotopes() const
Definition: G4Element.hh:159
std::vector< G4ParticleHPChannel * > * GetCaptureFinalStates()
void SetIsotope(const G4Isotope *iso)
Definition: G4Nucleus.hh:122
void Init()
Definition: G4IonTable.cc:90
static constexpr double perCent
Definition: G4SIunits.hh:332
G4int GetVerboseLevel() const
const G4Element * GetElement(G4int iel) const
Definition: G4Material.hh:202
int G4int
Definition: G4Types.hh:78
virtual const std::pair< G4double, G4double > GetFatalEnergyCheckLevels() const
void SetMinEnergy(G4double anEnergy)
G4HadFinalState * ApplyYourself(const G4HadProjectile &aTrack, G4Nucleus &aTargetNucleus)
const G4double * GetVecNbOfAtomsPerVolume() const
Definition: G4Material.hh:206
void Register(T *inst)
Definition: G4AutoDelete.hh:65
G4int GetN() const
Definition: G4Isotope.hh:94
#define G4UniformRand()
Definition: Randomize.hh:97
G4GLOB_DLL std::ostream G4cout
static size_t GetNumberOfElements()
Definition: G4Element.cc:405
virtual void ModelDescription(std::ostream &outFile) const
size_t GetIndex() const
Definition: G4Element.hh:182
void RegisterCaptureFinalStates(std::vector< G4ParticleHPChannel * > *val)
const G4int n
G4double GetThermalEnergy(const G4HadProjectile &aP, const G4Element *anE, G4double aT)
G4bool IsWorkerThread()
Definition: G4Threading.cc:145
T max(const T t1, const T t2)
brief Return the largest of the two arguments
void SetMaxEnergy(const G4double anEnergy)
const G4Isotope * GetIsotope(G4int iso) const
Definition: G4Element.hh:170
G4double GetTemperature() const
Definition: G4Material.hh:182
#define G4endl
Definition: G4ios.hh:61
static constexpr double MeV
Definition: G4SIunits.hh:214
const G4Material * GetMaterial() const
G4bool IsMasterThread()
Definition: G4Threading.cc:146
size_t GetNumberOfElements() const
Definition: G4Material.hh:186
double G4double
Definition: G4Types.hh:76
static G4ElementTable * GetElementTable()
Definition: G4Element.cc:398
G4ParticleHPReactionWhiteBoard * GetReactionWhiteBoard()
#define DBL_MAX
Definition: templates.hh:83
void SetParameters(const G4double A, const G4double Z)
Definition: G4Nucleus.cc:212
void BuildPhysicsTable(const G4ParticleDefinition &)