d8/d4f/G4ParticleHPFissionBaseFS_8cc_source.html

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// neutron_hp -- source file

// J.P. Wellisch, Nov-1996

// A prototype of the low energy neutron transport model.

//

// P. Arce, June-2014 Conversion neutron_hp to particle_hp

//

#include "G4ParticleHPFissionBaseFS.hh"

#include "G4ParticleHPManager.hh"

#include "G4SystemOfUnits.hh"

#include "G4ReactionProduct.hh"

#include "G4Nucleus.hh"

#include "G4Proton.hh"

#include "G4Deuteron.hh"

#include "G4Triton.hh"

#include "G4Alpha.hh"

#include "G4ThreeVector.hh"

#include "G4LorentzVector.hh"

#include "G4ParticleHPDataUsed.hh"


  void G4ParticleHPFissionBaseFS::Init (G4double A, G4double Z, G4int M, G4String & dirName, G4String & bit, G4ParticleDefinition*)

  {

    G4String tString = dirName;

    G4bool dbool;

    G4ParticleHPDataUsed aFile = theNames.GetName(static_cast<G4int>(A), static_cast<G4int>(Z), M, tString, bit, dbool);

    G4String filename = aFile.GetName();

    SetAZMs( A, Z, M, aFile );

    //theBaseA = aFile.GetA();

    //theBaseZ = aFile.GetZ();

    //if(!dbool  || ( Z<2.5 && ( std::abs(theBaseZ - Z)>0.0001 || std::abs(theBaseA - A)>0.0001) ) )

    if ( !dbool || ( Z<2.5 && ( std::abs(theNDLDataZ - Z)>0.0001 || std::abs(theNDLDataA - A)>0.0001)) )

    {

      hasAnyData = false;

      hasFSData = false;

      hasXsec = false;

      return; // no data for exactly this isotope.

    }


    //std::ifstream theData(filename, std::ios::in);

   std::istringstream theData(std::ios::in);

   G4ParticleHPManager::GetInstance()->GetDataStream(filename,theData);

    G4int dummy;

    if(!(theData))

    {

      //theData.close();

      hasFSData = false;

      hasXsec = false;

      hasAnyData = false;

      return; // no data for this FS for this isotope

    }

    theData >> dummy>>dummy;

    G4int total;

    theData >> total;

    theXsection->Init(theData, total, eV);

    if (!(theData >> dummy))

    {

      hasFSData = false;

      //theData.close();

      return;

    }

    theData >> dummy;


    theAngularDistribution.Init(theData);


    theData >> dummy >> dummy;


    theEnergyDistribution.Init(theData);

    //theData.close();


  }


G4DynamicParticleVector * G4ParticleHPFissionBaseFS::ApplyYourself(G4int nPrompt)

  {

// if therere were no data for this isotope, break out.

    if(!HasFSData()) { return 0; }


    G4int i;

    G4DynamicParticleVector * aResult = new G4DynamicParticleVector;

    G4ReactionProduct boosted;

    boosted.Lorentz( *(fCache.Get().theNeutronRP) , *(fCache.Get().theTarget) );

    G4double eKinetic = boosted.GetKineticEnergy();


// Build neutrons

    G4ReactionProduct * theNeutrons = new G4ReactionProduct[nPrompt];

    for(i=0; i<nPrompt; i++)

    {

      theNeutrons[i].SetDefinition(G4Neutron::Neutron());

    }


// sample energies

   G4int dummy;

   for(i=0; i<nPrompt; i++)

   {

     // always in the lab system (if file-5)

     theNeutrons[i].SetKineticEnergy(theEnergyDistribution.Sample(eKinetic, dummy));

   }


// sample neutron angular distribution

   for(i=0; i<nPrompt; i++)

   {

     theAngularDistribution.SampleAndUpdate(theNeutrons[i]);

   }


// already in lab. Add neutrons to dynamic particle vector

   for(i=0; i<nPrompt; i++)

   {

      G4DynamicParticle * it = new G4DynamicParticle;

      it->SetDefinition(theNeutrons[i].GetDefinition());

      it->SetMomentum(theNeutrons[i].GetMomentum());

      aResult->push_back(it);

   }

   delete [] theNeutrons;


// return the result

    return aResult;

  }

G4Alpha.hh

G4Deuteron.hh

G4DynamicParticleVector
std::vector< G4DynamicParticle * > G4DynamicParticleVector
Definition: G4DynamicParticleVector.hh:43

G4LorentzVector.hh

G4Nucleus.hh

M
#define M(row, col)

G4ParticleHPDataUsed.hh

G4ParticleHPFissionBaseFS.hh

G4ParticleHPManager.hh

G4Proton.hh

G4ReactionProduct.hh

G4SystemOfUnits.hh

G4ThreeVector.hh

G4Triton.hh

G4double
double G4double
Definition: G4Types.hh:83

G4bool
bool G4bool
Definition: G4Types.hh:86

G4int
int G4int
Definition: G4Types.hh:85

Z
const G4int Z[17]
Definition: G4WaterStopping.cc:51

A
const G4double A[17]
Definition: G4WaterStopping.cc:53

G4Cache::Get
value_type & Get() const
Definition: G4Cache.hh:315

G4DynamicParticle
Definition: G4DynamicParticle.hh:65

G4DynamicParticle::SetDefinition
void SetDefinition(const G4ParticleDefinition *aParticleDefinition)
Definition: G4DynamicParticle.cc:325

G4DynamicParticle::SetMomentum
void SetMomentum(const G4ThreeVector &momentum)
Definition: G4DynamicParticle.cc:393

G4Neutron::Neutron
static G4Neutron * Neutron()
Definition: G4Neutron.cc:103

G4ParticleDefinition
Definition: G4ParticleDefinition.hh:61

G4ParticleHPAngular::Init
void Init(std::istream &aDataFile)
Definition: G4ParticleHPAngular.cc:41

G4ParticleHPAngular::SampleAndUpdate
void SampleAndUpdate(G4ReactionProduct &anIncidentParticle)
Definition: G4ParticleHPAngular.cc:100

G4ParticleHPDataUsed
Definition: G4ParticleHPDataUsed.hh:36

G4ParticleHPDataUsed::GetName
G4String GetName()
Definition: G4ParticleHPDataUsed.hh:56

G4ParticleHPEnergyDistribution::Init
void Init(std::istream &theData)
Definition: G4ParticleHPEnergyDistribution.hh:68

G4ParticleHPEnergyDistribution::Sample
G4double Sample(G4double anEnergy, G4int &it)
Definition: G4ParticleHPEnergyDistribution.hh:101

G4ParticleHPFinalState::theNDLDataA
G4int theNDLDataA
Definition: G4ParticleHPFinalState.hh:136

G4ParticleHPFinalState::theNDLDataZ
G4int theNDLDataZ
Definition: G4ParticleHPFinalState.hh:135

G4ParticleHPFinalState::hasFSData
G4bool hasFSData
Definition: G4ParticleHPFinalState.hh:124

G4ParticleHPFinalState::SetAZMs
void SetAZMs(G4double anA, G4double aZ, G4int aM, G4ParticleHPDataUsed used)
Definition: G4ParticleHPFinalState.hh:106

G4ParticleHPFinalState::HasFSData
G4bool HasFSData()
Definition: G4ParticleHPFinalState.hh:94

G4ParticleHPFinalState::hasXsec
G4bool hasXsec
Definition: G4ParticleHPFinalState.hh:123

G4ParticleHPFinalState::hasAnyData
G4bool hasAnyData
Definition: G4ParticleHPFinalState.hh:125

G4ParticleHPFinalState::theNames
G4ParticleHPNames theNames
Definition: G4ParticleHPFinalState.hh:126

G4ParticleHPFissionBaseFS::Init
void Init(G4double A, G4double Z, G4int M, G4String &dirName, G4String &bit, G4ParticleDefinition *)
Definition: G4ParticleHPFissionBaseFS.cc:45

G4ParticleHPFissionBaseFS::ApplyYourself
G4DynamicParticleVector * ApplyYourself(G4int Prompt)
Definition: G4ParticleHPFissionBaseFS.cc:96

G4ParticleHPManager::GetInstance
static G4ParticleHPManager * GetInstance()
Definition: G4ParticleHPManager.cc:73

G4ParticleHPManager::GetDataStream
void GetDataStream(G4String, std::istringstream &iss)
Definition: G4ParticleHPManager.cc:98

G4ParticleHPNames::GetName
G4ParticleHPDataUsed GetName(G4int A, G4int Z, G4String base, G4String rest, G4bool &active)
Definition: G4ParticleHPNames.hh:48

G4ParticleHPVector::Init
void Init(std::istream &aDataFile, G4int total, G4double ux=1., G4double uy=1.)
Definition: G4ParticleHPVector.hh:221

G4ReactionProduct
Definition: G4ReactionProduct.hh:54

G4ReactionProduct::GetKineticEnergy
G4double GetKineticEnergy() const
Definition: G4ReactionProduct.hh:138

G4ReactionProduct::Lorentz
void Lorentz(const G4ReactionProduct &p1, const G4ReactionProduct &p2)
Definition: G4ReactionProduct.cc:223

G4ReactionProduct::SetDefinition
void SetDefinition(const G4ParticleDefinition *aParticleDefinition)
Definition: G4ReactionProduct.cc:175

G4ReactionProduct::SetKineticEnergy
void SetKineticEnergy(const G4double en)
Definition: G4ReactionProduct.hh:132

G4String
Definition: G4String.hh:62