#include <G4ParticleHPSCFissionFS.hh>

Inheritance diagram for G4ParticleHPSCFissionFS:

Public Member Functions
G4DynamicParticleVector *	ApplyYourself (G4int NNeutrons)

	G4ParticleHPSCFissionFS ()

G4double	GetA ()

G4int	GetM ()

G4double	GetN ()

virtual G4ParticleHPVector *	GetXsec ()

virtual G4double	GetXsec (G4double anEnergy)

G4double	GetZ ()

G4bool	HasAnyData ()

G4bool	HasFSData ()

G4bool	HasXsec ()

void	Init (G4double A, G4double Z, G4int M, G4String &dirName, G4String &aFSType, G4ParticleDefinition *projectile)

void	Init (G4double A, G4double Z, G4String &dirName, G4String &aFSType, G4ParticleDefinition *projectile)

G4ParticleHPFinalState *	New ()

void	SetA_Z (G4double anA, G4double aZ, G4int aM=0)

void	SetAZMs (G4double anA, G4double aZ, G4int aM, G4ParticleHPDataUsed used)

void	SetNeutronRP (const G4ReactionProduct &aNeutron)

void	SetProjectile (G4ParticleDefinition *projectile)

void	SetTarget (const G4ReactionProduct &aTarget)

	~G4ParticleHPSCFissionFS ()

Protected Member Functions
void	adjust_final_state (G4LorentzVector)

Protected Attributes
G4bool	hasAnyData

G4bool	hasFSData

G4bool	hasXsec

G4int	secID

G4double	theBaseA

G4int	theBaseM

G4double	theBaseZ

G4ParticleHPNames	theNames

G4int	theNDLDataA

G4int	theNDLDataM

G4int	theNDLDataZ

G4ParticleDefinition *	theProjectile

G4Cache< G4HadFinalState * >	theResult

Private Member Functions
G4HadFinalState *	ApplyYourself (const G4HadProjectile &)

Private Attributes
G4Cache< toBeCached >	fCache

G4ParticleHPAngular	theAngularDistribution

G4ParticleHPEnergyDistribution	theEnergyDistribution

G4ParticleHPVector *	theXsection

Detailed Description

Definition at line 37 of file G4ParticleHPSCFissionFS.hh.

Constructor & Destructor Documentation

◆ G4ParticleHPSCFissionFS()

G4ParticleHPSCFissionFS::G4ParticleHPSCFissionFS ( )

inline

Definition at line 41 of file G4ParticleHPSCFissionFS.hh.

41{ hasXsec = false; }

G4ParticleHPFinalState::hasXsec

G4bool hasXsec

Definition: G4ParticleHPFinalState.hh:124

References G4ParticleHPFinalState::hasXsec.

Referenced by New().

◆ ~G4ParticleHPSCFissionFS()

G4ParticleHPSCFissionFS::~G4ParticleHPSCFissionFS ( )

inline

Definition at line 42 of file G4ParticleHPSCFissionFS.hh.

42{}

Member Function Documentation

◆ adjust_final_state()

void G4ParticleHPFinalState::adjust_final_state ( G4LorentzVector init_4p_lab )

protectedinherited

Definition at line 47 of file G4ParticleHPFinalState.cc.

{
 
   G4double minimum_energy = 1*keV;
 
   if ( G4ParticleHPManager::GetInstance()->GetDoNotAdjustFinalState() ) return;
 
   G4int nSecondaries = theResult.Get()->GetNumberOfSecondaries();
 
   G4int sum_Z = 0;
   G4int sum_A = 0;
   G4int max_SecZ = 0;
   G4int max_SecA = 0;
   G4int imaxA = -1;
   for ( int i = 0 ; i < nSecondaries ; i++ )
   {
      //G4cout << "G4ParticleHPFinalState::adjust_final_state theResult.Get()->GetSecondary( i )->GetParticle()->GetDefinition()->GetParticleName() = " << theResult.Get()->GetSecondary( i )->GetParticle()->GetDefinition()->GetParticleName() << G4endl;
      sum_Z += theResult.Get()->GetSecondary( i )->GetParticle()->GetDefinition()->GetAtomicNumber();
      max_SecZ = std::max ( max_SecZ , theResult.Get()->GetSecondary( i )->GetParticle()->GetDefinition()->GetAtomicNumber() );
      sum_A += theResult.Get()->GetSecondary( i )->GetParticle()->GetDefinition()->GetAtomicMass();
      max_SecA = std::max ( max_SecA , theResult.Get()->GetSecondary( i )->GetParticle()->GetDefinition()->GetAtomicMass() );
      if ( theResult.Get()->GetSecondary( i )->GetParticle()->GetDefinition()->GetAtomicMass() == max_SecA ) imaxA = i;
#ifdef G4PHPDEBUG
      if( std::getenv("G4ParticleHPDebug"))    G4cout << "G4ParticleHPFinalState::adjust_final_stat SECO " << i << " " <<theResult.Get()->GetSecondary( i )->GetParticle()->GetDefinition()->GetParticleName() << G4endl;
#endif
 
   }
 
   G4ParticleDefinition* resi_pd = 0;
 
   G4double baseZNew = theBaseZ;
   G4double baseANew = theBaseA;
   if( theProjectile == G4Neutron::Neutron() ) {
     baseANew ++;
   } else if( theProjectile == G4Proton::Proton() ) {
     baseZNew ++;
     baseANew ++;
   } else if( theProjectile == G4Deuteron::Deuteron() ) {
     baseZNew ++;
     baseANew += 2;
   } else if( theProjectile == G4Triton::Triton() ) {
     baseZNew ++;
     baseANew += 3;
   } else if( theProjectile == G4He3::He3() ) {
     baseZNew += 2;
     baseANew += 3;
   } else if( theProjectile == G4Alpha::Alpha() ) {
     baseZNew += 2;
     baseANew += 4;
   }
 
#ifdef G4PHPDEBUG
   if( std::getenv("G4ParticleHPDebug")) G4cout  << "G4ParticleHPFinalState::adjust_final_stat  BaseZ " << baseZNew << " BaseA " << baseANew << " sum_Z " << sum_Z << " sum_A " << sum_A << G4endl;
#endif
 
   G4bool needOneMoreSec = false;
   G4ParticleDefinition* oneMoreSec_pd = 0;
   if ( (int)(baseZNew - sum_Z) == 0 && (int)(baseANew - sum_A) == 0 )
   {
      //All secondaries are already created;
      resi_pd = theResult.Get()->GetSecondary( imaxA )->GetParticle()->GetDefinition(); 
   }
   else
   {
      if ( max_SecA >= int(baseANew - sum_A) ) 
      {
         //Most heavy secondary is interpreted as residual
         resi_pd = theResult.Get()->GetSecondary( imaxA )->GetParticle()->GetDefinition(); 
         needOneMoreSec = true;
      }
      else 
      {
         //creation of residual is requierd 
    resi_pd = G4IonTable::GetIonTable()->GetIon ( int(baseZNew - sum_Z) , (int)(baseANew - sum_A) , 0.0 );
      }
 
      if ( needOneMoreSec )
      {
         if ( int(baseZNew - sum_Z) == 0 && (int)(baseANew - sum_A) > 0 )
         {
            //In this case, one neutron is added to secondaries 
            if ( int(baseANew - sum_A) > 1 ) G4cout << "More than one neutron is required for the balance of baryon number!" << G4endl;
            oneMoreSec_pd = G4Neutron::Neutron();
         }
         else 
         {
#ifdef G4PHPDEBUG
       if( std::getenv("G4ParticleHPDebug")) G4cout << this << "G4ParticleHPFinalState oneMoreSec_pd Z " << baseZNew << " - " << sum_Z << " A " << baseANew << " - " << sum_A << " projectile " << theProjectile->GetParticleName() << G4endl;
#endif
       oneMoreSec_pd = G4IonTable::GetIonTable()->GetIon ( int(baseZNew - sum_Z) , (int)(baseANew - sum_A) , 0.0 );
       if( !oneMoreSec_pd ) {
         G4cerr << this << "G4ParticleHPFinalState oneMoreSec_pd Z " << baseZNew << " - " << sum_Z << " A " << baseANew << " - " << sum_A << " projectile " << theProjectile->GetParticleName() << G4endl;
         G4Exception("G4ParticleHPFinalState:adjust_final_state",
             "Warning",
             JustWarning,
             "No adjustment will be done!");
         return;
       }
         }
      }
  
      if ( resi_pd == 0 )
      {
         // theNDLDataZ,A has the Z and A of used NDL file
    G4double ndlZNew = theNDLDataZ;
    G4double ndlANew = theNDLDataA;
    if( theProjectile == G4Neutron::Neutron() ) {
      ndlANew ++;
    } else if( theProjectile == G4Proton::Proton() ) {
      ndlZNew ++;
      ndlANew ++;
    } else if( theProjectile == G4Deuteron::Deuteron() ) {
      ndlZNew ++;
      ndlANew += 2;
    } else if( theProjectile == G4Triton::Triton() ) {
      ndlZNew ++;
      ndlANew += 3;
    } else if( theProjectile == G4He3::He3() ) {
      ndlZNew += 2;
      ndlANew += 3;
    } else if( theProjectile == G4Alpha::Alpha() ) {
      ndlZNew += 2;
      ndlANew += 4;
    }
        // theNDLDataZ,A has the Z and A of used NDL file
        if ( (int)(ndlZNew - sum_Z) == 0 && (int)(ndlANew - sum_A) == 0 )
        {
           G4int dif_Z = ( int ) ( theNDLDataZ - theBaseZ );
           G4int dif_A = ( int ) ( theNDLDataA - theBaseA );
           resi_pd = G4IonTable::GetIonTable()->GetIon ( max_SecZ - dif_Z , max_SecA - dif_A , 0.0 );
       if( !resi_pd ) {
         G4cerr << "G4ParticleHPFinalState resi_pd Z " << max_SecZ << " - " << dif_Z << " A " << max_SecA << " - " << dif_A << " projectile " << theProjectile->GetParticleName() << G4endl;
         G4Exception("G4ParticleHPFinalState:adjust_final_state",
             "Warning",
             JustWarning,
             "No adjustment will be done!");
         return;
       }
 
           for ( int i = 0 ; i < nSecondaries ; i++ )
           {
              if ( theResult.Get()->GetSecondary( i )->GetParticle()->GetDefinition()->GetAtomicNumber() == max_SecZ  
                && theResult.Get()->GetSecondary( i )->GetParticle()->GetDefinition()->GetAtomicMass() == max_SecA )
              {
                 G4ThreeVector p = theResult.Get()->GetSecondary( i )->GetParticle()->GetMomentum();
                 p = p * resi_pd->GetPDGMass()/ G4IonTable::GetIonTable()->GetIon ( max_SecZ , max_SecA , 0.0 )->GetPDGMass(); 
                 theResult.Get()->GetSecondary( i )->GetParticle()->SetDefinition( resi_pd );
                 theResult.Get()->GetSecondary( i )->GetParticle()->SetMomentum( p );
              } 
           }
        }
      }
   }
 
 
   G4LorentzVector secs_4p_lab( 0.0 );
 
   G4int n_sec = theResult.Get()->GetNumberOfSecondaries();
   G4double fast = 0;
   G4double slow = 1;
   G4int ifast = 0;
   G4int islow = 0;
   G4int ires = -1;
 
   for ( G4int i = 0 ; i < n_sec ; i++ )
   {
 
      //G4cout << "HP_DB " << i 
      //       << " " << theResult.GetSecondary( i )->GetParticle()->GetDefinition()->GetParticleName() 
      //       << " 4p " << theResult.GetSecondary( i )->GetParticle()->Get4Momentum() 
      //       << " ke " << theResult.GetSecondary( i )->GetParticle()->Get4Momentum().e() - theResult.GetSecondary( i )->GetParticle()->GetDefinition()->GetPDGMass() 
      //       << G4endl;
 
      secs_4p_lab += theResult.Get()->GetSecondary( i )->GetParticle()->Get4Momentum();
 
      G4double beta = 0;
      if ( theResult.Get()->GetSecondary( i )->GetParticle()->GetDefinition() != G4Gamma::Gamma() )
      {
         beta = theResult.Get()->GetSecondary( i )->GetParticle()->Get4Momentum().beta(); 
      }
      else
      {
         beta = 1;
      }
 
      if ( theResult.Get()->GetSecondary( i )->GetParticle()->GetDefinition() == resi_pd ) ires = i; 
 
      if ( slow > beta && beta != 0 ) 
      {
         slow = beta; 
         islow = i;
      }
 
      if ( fast <= beta ) 
      {
         if ( fast != 1 )
         {
            fast = beta; 
            ifast = i;
         } 
         else
         {
//          fast is already photon then check E
            G4double e = theResult.Get()->GetSecondary( i )->GetParticle()->Get4Momentum().e();
            if ( e > theResult.Get()->GetSecondary( ifast )->GetParticle()->Get4Momentum().e() )   
            {
//             among photons, the highest E becomes the fastest 
               ifast = i; 
            }
         } 
      }
   }
 
 
   G4LorentzVector dif_4p = init_4p_lab - secs_4p_lab;
 
   //G4cout << "HP_DB dif_4p " << init_4p_lab - secs_4p_lab << G4endl;
   //G4cout << "HP_DB dif_3p mag " << ( dif_4p.v() ).mag() << G4endl;
   //G4cout << "HP_DB dif_e " << dif_4p.e() - ( dif_4p.v() ).mag()<< G4endl;
 
   G4LorentzVector p4(0);
   if ( ires == -1 ) 
   {
//    Create and Add Residual Nucleus 
      ires = nSecondaries;
      nSecondaries += 1;
 
      G4DynamicParticle* res = new G4DynamicParticle ( resi_pd , dif_4p.v() );    
      theResult.Get()->AddSecondary ( res, secID );    
 
      p4 = res->Get4Momentum(); 
      if ( slow > p4.beta() ) 
      {
         slow = p4.beta(); 
         islow = ires;
      }
      dif_4p = init_4p_lab - ( secs_4p_lab + p4 );  
   }
 
   if ( needOneMoreSec && oneMoreSec_pd)
     //
     // fca: this is not a fix, this is a crash avoidance...
     // fca: the baryon number is still wrong, most probably because it
     // fca: should have been decreased, but since we could not create a particle
     // fca: we just do not add it
     //
   {
      nSecondaries += 1;
      G4DynamicParticle* one = new G4DynamicParticle ( oneMoreSec_pd , dif_4p.v() );    
      theResult.Get()->AddSecondary ( one, secID );    
      p4 = one->Get4Momentum(); 
      if ( slow > p4.beta() ) 
      {
         slow = p4.beta(); 
         islow = nSecondaries-1; //Because the first is 0th, so the last becomes "nSecondaries-1"
      }
      dif_4p = init_4p_lab - ( secs_4p_lab + p4 );  
   }
 
   //Which is bigger dif_p or dif_e
 
   if ( dif_4p.v().mag() < std::abs( dif_4p.e() ) )
   {
 
      // Adjust p
      //if ( dif_4p.v().mag() < 1*MeV )
      if ( minimum_energy < dif_4p.v().mag() && dif_4p.v().mag() < 1*MeV )
      {
 
         nSecondaries += 1;
         theResult.Get()->AddSecondary ( new G4DynamicParticle ( G4Gamma::Gamma() , dif_4p.v() ), secID );    
 
      }
      else
      {
         //G4cout << "HP_DB Difference in dif_p is too large (>1MeV) or too small(<1keV) to adjust, so that give up tuning" << G4endl;
      }
 
   }
   else
   {
 
      // dif_p > dif_e 
      // at first momentum 
      // Move residual momentum
 
      p4 = theResult.Get()->GetSecondary( ires )->GetParticle()->Get4Momentum();
      theResult.Get()->GetSecondary( ires )->GetParticle()->SetMomentum( p4.v() + dif_4p.v() ); 
      dif_4p = init_4p_lab - ( secs_4p_lab - p4 + theResult.Get()->GetSecondary( ires )->GetParticle()->Get4Momentum()  );  
 
      //G4cout << "HP_DB new residual kinetic energy " << theResult.GetSecondary( ires )->GetParticle()->GetKineticEnergy() << G4endl;
 
   }
 
   G4double dif_e = dif_4p.e() - ( dif_4p.v() ).mag();
   //G4cout << "HP_DB dif_e " << dif_e << G4endl;
 
   if ( dif_e > 0 )
   {
 
//    create 2 gamma 
 
      nSecondaries += 2;
      G4double e1 = ( dif_4p.e() -dif_4p.v().mag() ) / 2;
      
      if ( minimum_energy < e1 )  
      {
         G4double costh = 2.*G4UniformRand()-1.;
         G4double phi = twopi*G4UniformRand();
         G4ThreeVector dir( std::sin(std::acos(costh))*std::cos(phi), 
                            std::sin(std::acos(costh))*std::sin(phi),
                            costh);
         theResult.Get()->AddSecondary ( new G4DynamicParticle ( G4Gamma::Gamma() , e1*dir ),  secID );    
         theResult.Get()->AddSecondary ( new G4DynamicParticle ( G4Gamma::Gamma() , -e1*dir ), secID );    
      }
      else
      {
         //G4cout << "HP_DB Difference is too small(<1keV) to adjust, so that neglect it" << G4endl;
      }
 
   }
   else    //dif_e < 0
   {
 
//    At first reduce KE of the fastest secondary;
      G4double ke0 = theResult.Get()->GetSecondary( ifast )->GetParticle()->GetKineticEnergy();
      G4ThreeVector p0 = theResult.Get()->GetSecondary( ifast )->GetParticle()->GetMomentum();
      G4ThreeVector dir = ( theResult.Get()->GetSecondary( ifast )->GetParticle()->GetMomentum() ).unit();
 
      //G4cout << "HP_DB ifast " << ifast << " ke0 " << ke0 << G4endl;
 
      if ( ke0 + dif_e > 0 )
      {
         theResult.Get()->GetSecondary( ifast )->GetParticle()->SetKineticEnergy( ke0 + dif_e ); 
         G4ThreeVector dp = p0 - theResult.Get()->GetSecondary( ifast )->GetParticle()->GetMomentum();  
 
         G4ThreeVector p = theResult.Get()->GetSecondary( islow )->GetParticle()->GetMomentum();
         //theResult.GetSecondary( islow )->GetParticle()->SetMomentum( p - dif_e*dir ); 
         theResult.Get()->GetSecondary( islow )->GetParticle()->SetMomentum( p + dp ); 
      }
      else
      {
         //G4cout << "HP_DB Difference in dif_e too large ( <0MeV ) to adjust, so that give up tuning" << G4endl;
      }
 
   }
 
}

References G4HadFinalState::AddSecondary(), G4Alpha::Alpha(), CLHEP::HepLorentzVector::beta(), anonymous_namespace{G4PionRadiativeDecayChannel.cc}::beta, G4Deuteron::Deuteron(), CLHEP::HepLorentzVector::e(), e1, G4cerr, G4cout, G4endl, G4Exception(), G4UniformRand, G4Gamma::Gamma(), G4Cache< VALTYPE >::Get(), G4DynamicParticle::Get4Momentum(), G4ParticleDefinition::GetAtomicMass(), G4ParticleDefinition::GetAtomicNumber(), G4DynamicParticle::GetDefinition(), G4ParticleHPManager::GetInstance(), G4IonTable::GetIon(), G4IonTable::GetIonTable(), G4DynamicParticle::GetKineticEnergy(), G4DynamicParticle::GetMomentum(), G4HadFinalState::GetNumberOfSecondaries(), G4HadSecondary::GetParticle(), G4ParticleDefinition::GetParticleName(), G4ParticleDefinition::GetPDGMass(), G4HadFinalState::GetSecondary(), G4He3::He3(), JustWarning, keV, CLHEP::Hep3Vector::mag(), G4INCL::Math::max(), MeV, G4Neutron::Neutron(), G4Proton::Proton(), G4ParticleHPFinalState::secID, G4DynamicParticle::SetDefinition(), G4DynamicParticle::SetKineticEnergy(), G4DynamicParticle::SetMomentum(), G4ParticleHPFinalState::theBaseA, G4ParticleHPFinalState::theBaseZ, G4ParticleHPFinalState::theNDLDataA, G4ParticleHPFinalState::theNDLDataZ, G4ParticleHPFinalState::theProjectile, G4ParticleHPFinalState::theResult, G4Triton::Triton(), twopi, and CLHEP::HepLorentzVector::v().

Referenced by G4ParticleHPInelasticBaseFS::BaseApply(), and G4ParticleHPInelasticCompFS::CompositeApply().

◆ ApplyYourself() [1/2]

G4HadFinalState * G4ParticleHPSCFissionFS::ApplyYourself ( const G4HadProjectile & )

inlineprivatevirtual

Reimplemented from G4ParticleHPFissionBaseFS.

Definition at line 52 of file G4ParticleHPSCFissionFS.hh.

52{ return 0; }

◆ ApplyYourself() [2/2]

G4DynamicParticleVector * G4ParticleHPSCFissionFS::ApplyYourself ( G4int NNeutrons )

Definition at line 39 of file G4ParticleHPSCFissionFS.cc.

  {  
    G4DynamicParticleVector * aResult;
//    G4cout <<"G4ParticleHPSCFissionFS::ApplyYourself +"<<G4endl;
    aResult = G4ParticleHPFissionBaseFS::ApplyYourself(NNeutrons);    
    return aResult;
  }

References G4ParticleHPFissionBaseFS::ApplyYourself().

Referenced by G4ParticleHPFissionFS::ApplyYourself().

◆ GetA()

G4double G4ParticleHPFinalState::GetA ( void )

inlineinherited

Definition at line 104 of file G4ParticleHPFinalState.hh.

104{ return theBaseA; }

References G4ParticleHPFinalState::theBaseA.

◆ GetM()

G4int G4ParticleHPFinalState::GetM ( )

inlineinherited

Definition at line 105 of file G4ParticleHPFinalState.hh.

105{ return theBaseM; }

G4ParticleHPFinalState::theBaseM

G4int theBaseM

Definition: G4ParticleHPFinalState.hh:134

References G4ParticleHPFinalState::theBaseM.

Referenced by G4ParticleHPChannel::GetM().

◆ GetN()

G4double G4ParticleHPFinalState::GetN ( )

inlineinherited

Definition at line 103 of file G4ParticleHPFinalState.hh.

103{ return theBaseA; }

References G4ParticleHPFinalState::theBaseA.

Referenced by G4ParticleHPChannel::ApplyYourself(), and G4ParticleHPChannel::GetN().

◆ GetXsec() [1/2]

virtual G4ParticleHPVector * G4ParticleHPFissionBaseFS::GetXsec ( )

inlinevirtualinherited

Reimplemented from G4ParticleHPFinalState.

Definition at line 74 of file G4ParticleHPFissionBaseFS.hh.

  {
    return theXsection;
  }

References G4ParticleHPFissionBaseFS::theXsection.

◆ GetXsec() [2/2]

virtual G4double G4ParticleHPFissionBaseFS::GetXsec ( G4double anEnergy )

inlinevirtualinherited

Reimplemented from G4ParticleHPFinalState.

Definition at line 69 of file G4ParticleHPFissionBaseFS.hh.

  {
    return std::max(0., theXsection->GetY(anEnergy));
  }

References G4ParticleHPVector::GetY(), G4INCL::Math::max(), and G4ParticleHPFissionBaseFS::theXsection.

Referenced by G4ParticleHPFissionFS::ApplyYourself().

◆ GetZ()

G4double G4ParticleHPFinalState::GetZ ( void )

inlineinherited

Definition at line 102 of file G4ParticleHPFinalState.hh.

102{ return theBaseZ; }

References G4ParticleHPFinalState::theBaseZ.

Referenced by G4ParticleHPChannel::ApplyYourself(), and G4ParticleHPChannel::GetZ().

◆ HasAnyData()

G4bool G4ParticleHPFinalState::HasAnyData ( )

inlineinherited

Definition at line 96 of file G4ParticleHPFinalState.hh.

96{ return hasAnyData; }

G4ParticleHPFinalState::hasAnyData

G4bool hasAnyData

Definition: G4ParticleHPFinalState.hh:126

References G4ParticleHPFinalState::hasAnyData.

Referenced by G4ParticleHPChannel::HasAnyData().

◆ HasFSData()

G4bool G4ParticleHPFinalState::HasFSData ( )

inlineinherited

Definition at line 95 of file G4ParticleHPFinalState.hh.

95{ return hasFSData; }

G4ParticleHPFinalState::hasFSData

G4bool hasFSData

Definition: G4ParticleHPFinalState.hh:125

References G4ParticleHPFinalState::hasFSData.

Referenced by G4ParticleHPCaptureFS::ApplyYourself(), G4ParticleHPFissionBaseFS::ApplyYourself(), G4ParticleHPInelasticBaseFS::BaseApply(), G4ParticleHPChannel::HasFSData(), and G4ParticleHPFissionFS::Init().

◆ HasXsec()

G4bool G4ParticleHPFinalState::HasXsec ( )

inlineinherited

Definition at line 94 of file G4ParticleHPFinalState.hh.

94{ return hasXsec; }

References G4ParticleHPFinalState::hasXsec.

Referenced by G4ParticleHPChannel::DumpInfo().

◆ Init() [1/2]

void G4ParticleHPSCFissionFS::Init	(	G4double	A,
		G4double	Z,
		G4int	M,
		G4String &	dirName,
		G4String &	aFSType,
		G4ParticleDefinition *	projectile
	)

virtual

Reimplemented from G4ParticleHPFissionBaseFS.

Definition at line 33 of file G4ParticleHPSCFissionFS.cc.

  {
    G4String aString = "/SC/";
    G4ParticleHPFissionBaseFS::Init(A, Z, M, dirName, aString, projectile);
  }

References A, G4ParticleHPFissionBaseFS::Init(), M, and Z.

Referenced by G4ParticleHPFissionFS::Init().

◆ Init() [2/2]

void G4ParticleHPFinalState::Init	(	G4double	A,
		G4double	Z,
		G4String &	dirName,
		G4String &	aFSType,
		G4ParticleDefinition *	projectile
	)

inlineinherited

Definition at line 76 of file G4ParticleHPFinalState.hh.

  {
    G4int M = 0;
    Init ( A, Z, M, dirName, aFSType,const_cast<G4ParticleDefinition*>(projectile));
  }

References A, G4ParticleHPFinalState::Init(), M, and Z.

Referenced by G4ParticleHPFinalState::Init(), and G4ParticleHPChannel::UpdateData().

◆ New()

G4ParticleHPFinalState * G4ParticleHPSCFissionFS::New ( )

inlinevirtual

Implements G4ParticleHPFinalState.

Definition at line 45 of file G4ParticleHPSCFissionFS.hh.

  {
   G4ParticleHPSCFissionFS * theNew = new G4ParticleHPSCFissionFS;
   return theNew;
  }

References G4ParticleHPSCFissionFS().

◆ SetA_Z()

void G4ParticleHPFinalState::SetA_Z	(	G4double	anA,
		G4double	aZ,
		G4int	aM = `0`
	)

inlineinherited

Definition at line 101 of file G4ParticleHPFinalState.hh.

101{theBaseA = anA; theBaseZ = aZ; theBaseM=aM; }

References G4ParticleHPFinalState::theBaseA, G4ParticleHPFinalState::theBaseM, and G4ParticleHPFinalState::theBaseZ.

Referenced by G4ParticleHPChannel::Register().

◆ SetAZMs()

void G4ParticleHPFinalState::SetAZMs	(	G4double	anA,
		G4double	aZ,
		G4int	aM,
		G4ParticleHPDataUsed	used
	)

inlineinherited

Definition at line 107 of file G4ParticleHPFinalState.hh.

  {
    theBaseA = anA; theBaseZ = aZ; theBaseM=aM; 
    theNDLDataA=(G4int)used.GetA();
    theNDLDataZ=(G4int)used.GetZ();
    theNDLDataM=used.GetM();
  }

References G4ParticleHPDataUsed::GetA(), G4ParticleHPDataUsed::GetM(), G4ParticleHPDataUsed::GetZ(), G4ParticleHPFinalState::theBaseA, G4ParticleHPFinalState::theBaseM, G4ParticleHPFinalState::theBaseZ, G4ParticleHPFinalState::theNDLDataA, G4ParticleHPFinalState::theNDLDataM, and G4ParticleHPFinalState::theNDLDataZ.

Referenced by G4ParticleHPCaptureFS::Init(), G4ParticleHPElasticFS::Init(), G4ParticleHPFSFissionFS::Init(), G4ParticleHPInelasticCompFS::Init(), G4ParticleHPFissionBaseFS::Init(), and G4ParticleHPInelasticBaseFS::Init().

◆ SetNeutronRP()

void G4ParticleHPFissionBaseFS::SetNeutronRP ( const G4ReactionProduct & aNeutron )

inlineinherited

Definition at line 79 of file G4ParticleHPFissionBaseFS.hh.

  { 
    fCache.Get().theNeutronRP = &aNeutron;
    theAngularDistribution.SetProjectileRP(aNeutron);
  }

References G4ParticleHPFissionBaseFS::fCache, G4ParticleHPAngular::SetProjectileRP(), and G4ParticleHPFissionBaseFS::theAngularDistribution.

Referenced by G4ParticleHPFissionFS::ApplyYourself().

◆ SetProjectile()

void G4ParticleHPFinalState::SetProjectile ( G4ParticleDefinition * projectile )

inlineinherited

Definition at line 115 of file G4ParticleHPFinalState.hh.

  {
    theProjectile = projectile;
  }

References G4ParticleHPFinalState::theProjectile.

Referenced by G4ParticleHPChannel::Register().

◆ SetTarget()

void G4ParticleHPFissionBaseFS::SetTarget ( const G4ReactionProduct & aTarget )

inlineinherited

Definition at line 85 of file G4ParticleHPFissionBaseFS.hh.

  { 
    fCache.Get().theTarget = &aTarget; 
    theAngularDistribution.SetTarget(aTarget);
  }

References G4ParticleHPFissionBaseFS::fCache, G4ParticleHPAngular::SetTarget(), and G4ParticleHPFissionBaseFS::theAngularDistribution.

Referenced by G4ParticleHPFissionFS::ApplyYourself().

Field Documentation

◆ fCache

G4Cache<toBeCached> G4ParticleHPFissionBaseFS::fCache

privateinherited

Definition at line 99 of file G4ParticleHPFissionBaseFS.hh.

Referenced by G4ParticleHPFissionBaseFS::ApplyYourself(), G4ParticleHPFissionBaseFS::SetNeutronRP(), and G4ParticleHPFissionBaseFS::SetTarget().

◆ hasAnyData

G4bool G4ParticleHPFinalState::hasAnyData

protectedinherited

Definition at line 126 of file G4ParticleHPFinalState.hh.

Referenced by G4ParticleHPFinalState::G4ParticleHPFinalState(), G4ParticleHPFinalState::HasAnyData(), G4FissionLibrary::Init(), G4ParticleHPCaptureFS::Init(), G4ParticleHPElasticFS::Init(), G4ParticleHPFFFissionFS::Init(), G4ParticleHPFSFissionFS::Init(), G4ParticleHPInelasticCompFS::Init(), G4ParticleHPFissionBaseFS::Init(), and G4ParticleHPInelasticBaseFS::Init().

◆ hasFSData

G4bool G4ParticleHPFinalState::hasFSData

protectedinherited

Definition at line 125 of file G4ParticleHPFinalState.hh.

Referenced by G4ParticleHPFinalState::G4ParticleHPFinalState(), G4ParticleHPFinalState::HasFSData(), G4FissionLibrary::Init(), G4ParticleHPCaptureFS::Init(), G4ParticleHPElasticFS::Init(), G4ParticleHPFFFissionFS::Init(), G4ParticleHPFSFissionFS::Init(), G4ParticleHPInelasticCompFS::Init(), G4ParticleHPFissionBaseFS::Init(), and G4ParticleHPInelasticBaseFS::Init().

◆ hasXsec

G4bool G4ParticleHPFinalState::hasXsec

protectedinherited

Definition at line 124 of file G4ParticleHPFinalState.hh.

Referenced by G4FissionLibrary::G4FissionLibrary(), G4ParticleHPCaptureFS::G4ParticleHPCaptureFS(), G4ParticleHPElasticFS::G4ParticleHPElasticFS(), G4ParticleHPFCFissionFS::G4ParticleHPFCFissionFS(), G4ParticleHPFFFissionFS::G4ParticleHPFFFissionFS(), G4ParticleHPFinalState::G4ParticleHPFinalState(), G4ParticleHPFissionBaseFS::G4ParticleHPFissionBaseFS(), G4ParticleHPFissionFS::G4ParticleHPFissionFS(), G4ParticleHPFSFissionFS::G4ParticleHPFSFissionFS(), G4ParticleHPInelasticBaseFS::G4ParticleHPInelasticBaseFS(), G4ParticleHPInelasticCompFS::G4ParticleHPInelasticCompFS(), G4ParticleHPLCFissionFS::G4ParticleHPLCFissionFS(), G4ParticleHPSCFissionFS(), G4ParticleHPTCFissionFS::G4ParticleHPTCFissionFS(), G4ParticleHPFinalState::HasXsec(), G4FissionLibrary::Init(), G4ParticleHPCaptureFS::Init(), G4ParticleHPElasticFS::Init(), G4ParticleHPFFFissionFS::Init(), G4ParticleHPFSFissionFS::Init(), G4ParticleHPInelasticCompFS::Init(), G4ParticleHPFissionBaseFS::Init(), and G4ParticleHPInelasticBaseFS::Init().

◆ secID

G4int G4ParticleHPFinalState::secID

protectedinherited

Definition at line 140 of file G4ParticleHPFinalState.hh.

◆ theAngularDistribution

G4ParticleHPAngular G4ParticleHPFissionBaseFS::theAngularDistribution

privateinherited

Definition at line 97 of file G4ParticleHPFissionBaseFS.hh.

Referenced by G4ParticleHPFissionBaseFS::ApplyYourself(), G4ParticleHPFissionBaseFS::Init(), G4ParticleHPFissionBaseFS::SetNeutronRP(), and G4ParticleHPFissionBaseFS::SetTarget().

◆ theBaseA

G4double G4ParticleHPFinalState::theBaseA

protectedinherited

Definition at line 132 of file G4ParticleHPFinalState.hh.

Referenced by G4ParticleHPFinalState::adjust_final_state(), G4ParticleHPCaptureFS::ApplyYourself(), G4ParticleHPElasticFS::ApplyYourself(), G4ParticleHPFissionFS::ApplyYourself(), G4ParticleHPInelasticBaseFS::BaseApply(), G4ParticleHPInelasticCompFS::CompositeApply(), G4ParticleHPFinalState::G4ParticleHPFinalState(), G4ParticleHPFinalState::GetA(), G4ParticleHPFinalState::GetN(), G4ParticleHPCaptureFS::Init(), G4ParticleHPFFFissionFS::Init(), G4ParticleHPInelasticBaseFS::InitGammas(), G4ParticleHPFinalState::SetA_Z(), and G4ParticleHPFinalState::SetAZMs().

◆ theBaseM

G4int G4ParticleHPFinalState::theBaseM

protectedinherited

Definition at line 134 of file G4ParticleHPFinalState.hh.

Referenced by G4ParticleHPFinalState::G4ParticleHPFinalState(), G4ParticleHPFinalState::GetM(), G4ParticleHPFinalState::SetA_Z(), and G4ParticleHPFinalState::SetAZMs().

◆ theBaseZ

G4double G4ParticleHPFinalState::theBaseZ

protectedinherited

Definition at line 133 of file G4ParticleHPFinalState.hh.

Referenced by G4ParticleHPFinalState::adjust_final_state(), G4ParticleHPCaptureFS::ApplyYourself(), G4ParticleHPElasticFS::ApplyYourself(), G4ParticleHPFissionFS::ApplyYourself(), G4ParticleHPInelasticBaseFS::BaseApply(), G4ParticleHPInelasticCompFS::CompositeApply(), G4ParticleHPFinalState::G4ParticleHPFinalState(), G4ParticleHPFinalState::GetZ(), G4ParticleHPCaptureFS::Init(), G4ParticleHPFFFissionFS::Init(), G4ParticleHPInelasticBaseFS::InitGammas(), G4ParticleHPFinalState::SetA_Z(), and G4ParticleHPFinalState::SetAZMs().

◆ theEnergyDistribution

G4ParticleHPEnergyDistribution G4ParticleHPFissionBaseFS::theEnergyDistribution

privateinherited

Definition at line 96 of file G4ParticleHPFissionBaseFS.hh.

Referenced by G4ParticleHPFissionBaseFS::ApplyYourself(), and G4ParticleHPFissionBaseFS::Init().

◆ theNames

G4ParticleHPNames G4ParticleHPFinalState::theNames

protectedinherited

Definition at line 127 of file G4ParticleHPFinalState.hh.

Referenced by G4FissionLibrary::Init(), G4ParticleHPElasticFS::Init(), G4ParticleHPFFFissionFS::Init(), G4ParticleHPInelasticCompFS::Init(), G4ParticleHPFissionBaseFS::Init(), and G4ParticleHPInelasticBaseFS::Init().

◆ theNDLDataA

G4int G4ParticleHPFinalState::theNDLDataA

protectedinherited

Definition at line 137 of file G4ParticleHPFinalState.hh.

Referenced by G4ParticleHPFinalState::adjust_final_state(), G4ParticleHPFinalState::G4ParticleHPFinalState(), G4ParticleHPElasticFS::Init(), G4ParticleHPInelasticCompFS::Init(), G4ParticleHPFissionBaseFS::Init(), G4ParticleHPInelasticBaseFS::Init(), and G4ParticleHPFinalState::SetAZMs().

◆ theNDLDataM

G4int G4ParticleHPFinalState::theNDLDataM

protectedinherited

Definition at line 138 of file G4ParticleHPFinalState.hh.

Referenced by G4ParticleHPFinalState::G4ParticleHPFinalState(), G4ParticleHPElasticFS::Init(), and G4ParticleHPFinalState::SetAZMs().

◆ theNDLDataZ

G4int G4ParticleHPFinalState::theNDLDataZ

protectedinherited

Definition at line 136 of file G4ParticleHPFinalState.hh.

Referenced by G4ParticleHPFinalState::adjust_final_state(), G4ParticleHPFinalState::G4ParticleHPFinalState(), G4ParticleHPElasticFS::Init(), G4ParticleHPInelasticCompFS::Init(), G4ParticleHPFissionBaseFS::Init(), G4ParticleHPInelasticBaseFS::Init(), and G4ParticleHPFinalState::SetAZMs().

◆ theProjectile

G4ParticleDefinition* G4ParticleHPFinalState::theProjectile

protectedinherited

Definition at line 130 of file G4ParticleHPFinalState.hh.

Referenced by G4ParticleHPFinalState::adjust_final_state(), G4ParticleHPInelasticBaseFS::BaseApply(), G4ParticleHPInelasticCompFS::CompositeApply(), G4ParticleHPFinalState::G4ParticleHPFinalState(), G4ParticleHPInelasticCompFS::Init(), G4ParticleHPInelasticBaseFS::Init(), and G4ParticleHPFinalState::SetProjectile().

◆ theResult

G4Cache< G4HadFinalState* > G4ParticleHPFinalState::theResult

protectedinherited

Definition at line 129 of file G4ParticleHPFinalState.hh.

◆ theXsection

G4ParticleHPVector* G4ParticleHPFissionBaseFS::theXsection

privateinherited

Definition at line 95 of file G4ParticleHPFissionBaseFS.hh.

Referenced by G4ParticleHPFissionBaseFS::G4ParticleHPFissionBaseFS(), G4ParticleHPFissionBaseFS::GetXsec(), G4ParticleHPFissionBaseFS::Init(), and G4ParticleHPFissionBaseFS::~G4ParticleHPFissionBaseFS().

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

source/processes/hadronic/models/particle_hp/include/G4ParticleHPSCFissionFS.hh
source/processes/hadronic/models/particle_hp/src/G4ParticleHPSCFissionFS.cc

Public Member Functions

Protected Member Functions

Protected Attributes

Private Member Functions

Private Attributes

Detailed Description

Constructor & Destructor Documentation

◆ G4ParticleHPSCFissionFS()

◆ ~G4ParticleHPSCFissionFS()

Member Function Documentation

◆ adjust_final_state()

◆ ApplyYourself() [1/2]

◆ ApplyYourself() [2/2]

◆ GetA()

◆ GetM()

◆ GetN()

◆ GetXsec() [1/2]

◆ GetXsec() [2/2]

◆ GetZ()

◆ HasAnyData()

◆ HasFSData()

◆ HasXsec()

◆ Init() [1/2]

◆ Init() [2/2]

◆ New()

◆ SetA_Z()

◆ SetAZMs()

◆ SetNeutronRP()

◆ SetProjectile()

◆ SetTarget()

Field Documentation

◆ fCache

◆ hasAnyData

◆ hasFSData

◆ hasXsec

◆ secID

◆ theAngularDistribution

◆ theBaseA

◆ theBaseM

◆ theBaseZ

◆ theEnergyDistribution

◆ theNames

◆ theNDLDataA

◆ theNDLDataM

◆ theNDLDataZ

◆ theProjectile

◆ theResult

◆ theXsection