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Geant4/processes/hadronic/models/de_excitation/fission/src/G4FissionParameters.cc

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Differences between /processes/hadronic/models/de_excitation/fission/src/G4FissionParameters.cc (Version 11.3.0) and /processes/hadronic/models/de_excitation/fission/src/G4FissionParameters.cc (Version 6.1)

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                                                   >>   // $Id: G4FissionParameters.cc,v 1.2 2003/11/03 17:53:03 hpw Exp $
                                                   >>   // GEANT4 tag $Name: geant4-06-00-patch-01 $
  //                                                  //
  // Hadronic Process: Nuclear De-excitations         // Hadronic Process: Nuclear De-excitations
  // by V. Lara (Oct 1998)                            // by V. Lara (Oct 1998)
  //                                                  //
  //J. M. Quesada (May 2009): sigma_sym (SigmaS) <<   
  //J. M. Quesada (30.10.09): retuning for IAEA  << 
                                                      
  #include "G4FissionParameters.hh"                   #include "G4FissionParameters.hh"
  #include "G4SystemOfUnits.hh"                  <<   #include "G4HadronicException.hh"
                                                      
  G4FissionParameters::G4FissionParameters()     << 
    : A1(134),A2(141),A3((A1 + A2)*0.5),As(0.0), << 
      SigmaS(0.),w(0.0)                          << 
  {}                                             << 
                                                      
  G4FissionParameters::~G4FissionParameters()    <<   const G4double G4FissionParameters::A1 = 134.0;
  {}                                             <<   const G4double G4FissionParameters::A2 = 141.0;
                                                      
  void G4FissionParameters::DefineParameters(G4i << 
               G4double FissionBarrier)          << 
  {                                              << 
    // to avoid usage of units                   << 
    G4double U = std::min(200., ExEnergy/CLHEP:: << 
                                                      
    As = A*0.5;                                  <<   G4FissionParameters::G4FissionParameters(const G4int A, const G4int Z, const G4double ExEnergy,
                                                   >>              const G4double FissionBarrier)
                                                   >>   {
                                                   >>       G4double U = ExEnergy; 
                                                   >>     
                                                   >>       As = A/2.0;
                                                   >>   
                                                   >>       if (A <= 235) Sigma2 = 5.6;  // MeV
                                                   >>       else Sigma2 = 5.6 + 0.096*(A-235); // MeV
                                                   >>   
                                                   >>       Sigma1 = 0.5*Sigma2; // MeV
                                                   >>   
                                                   >>       SigmaS = exp(0.00553*U/MeV + 2.1386); // MeV
                                                   >>       if (SigmaS > 20.0) SigmaS = 20.0;
                                                   >>   
                                                   >>       G4double FasymAsym = 2.0*exp(-((A2-As)*(A2-As))/(2.0*Sigma2*Sigma2)) + 
                                                   >>     exp(-((A1-As)*(A1-As))/(2.0*Sigma1*Sigma1));
                                                   >>     
                                                   >>       G4double FsymA1A2 = exp(-((As-(A1+A2)/2.0)*(As-(A1+A2)/2.0))/(2.0*SigmaS*SigmaS));
                                                   >>     
                                                   >>   
                                                   >>       G4double wa = 0.0;
                                                   >>       w = 0.0;
                                                   >>       if (Z >= 90) {         // Z >= 90
                                                   >>     if (U <= 16.25) wa = exp(0.5385*U/MeV-9.9564);  // U <= 16.25 MeV
                                                   >>     else wa = exp(0.09197*U/MeV-2.7003);            // U  > 16.25 MeV
                                                   >>       } else if (Z == 89) {  // Z == 89
                                                   >>     wa = exp(0.09197*U-1.0808);
                                                   >>       } else if (Z >= 82) {  //  82 <= Z <= 88
                                                   >>     G4double X = FissionBarrier - 7.5*MeV;
                                                   >>     if (X < 0.0) X = 0.0;
                                                   >>     wa = exp(0.09197*(U-X)/MeV-1.0808);
                                                   >>       } else {               // Z < 82
                                                   >>     w = 1001.0;
                                                   >>       }
                                                   >>     
                                                   >>       if (w == 0.0) {
                                                   >>     G4double w1 = std::max(1.03*wa - FasymAsym, 0.0001);
                                                   >>     G4double w2 = std::max(1.0 - FsymA1A2*wa,   0.0001);
                                                          
    if (A <= 235) { Sigma2 = 5.6; }              <<     w = w1/w2;
    else          { Sigma2 = 5.6 + 0.096*(A-235) << 
                                                      
    Sigma1 = 0.5*Sigma2;                         <<     if (82 <= Z && Z < 89 && A < 227)  w *= exp(0.3*(227-A));
                                                 <<       }
    //JMQ 310509                                 <<     
    //    if (SigmaS > 20.0) SigmaS = 20.0;      <<   }
    //   SigmaS*=1.3;                            << 
    //JMQ 301009: retuning (after CEM transition << 
    SigmaS = 0.8*G4Exp(0.00553*U + 2.1386);      << 
                                                 << 
    G4double wa = 0.0;                           << 
    w = 0.0;                                     << 
    if (Z >= 90) {                               << 
      if (U <= 16.25) { wa = G4Exp(0.5385*U-9.95 << 
      else            { wa = G4Exp(0.09197*U-2.7 << 
    } else if (Z == 89) {                        << 
      wa = G4Exp(0.09197*U-1.0808);              << 
    } else if (Z >= 82) {                        << 
      G4double X = std::max(0.0, FissionBarrier/ << 
      wa = G4Exp(0.09197*(U-X) - 1.0808);        << 
    } else {               // Z < 82             << 
      w = 1001.0;                                << 
    }                                            << 
                                                 << 
    if (Z >= 82) {                               << 
      G4double x1 = (A1-As)/Sigma1;              << 
      G4double x2 = (A2-As)/Sigma2;              << 
      G4double FasymAsym = 2*LocalExp(x2) + Loca << 
                                                 << 
      G4double x3 = (As-A3)/SigmaS;              << 
      G4double FsymA1A2 = LocalExp(x3);          << 
                                                      
      G4double w1 = std::max(1.03*wa - FasymAsym <<   
      G4double w2 = std::max(1.0 - FsymA1A2*wa,  <<   G4FissionParameters::G4FissionParameters(const G4FissionParameters &)
                                                 <<   {
      w = w1/w2;                                 <<       throw G4HadronicException(__FILE__, __LINE__, "G4FissionParameters::copy_constructor meant to not be accessable");
                                                 <<   }
      if (A < 227) { w *= G4Exp(0.3*(227-A)); }  <<   
    }                                            <<   
                                                   >>   const G4FissionParameters & G4FissionParameters::operator=(const G4FissionParameters &)
                                                   >>   {
                                                   >>       throw G4HadronicException(__FILE__, __LINE__, "G4FissionParameters::operator= meant to not be accessable");
                                                   >>       return *this;
                                                   >>   }
                                                   >>   
                                                   >>  
                                                   >>  G4bool G4FissionParameters::operator==(const G4FissionParameters &) const
                                                   >>  {
                                                   >>      return false;
                                                   >>  }
                                                   >>  
                                                   >>  G4bool G4FissionParameters::operator!=(const G4FissionParameters &) const
                                                   >>  {
                                                   >>      return true;
  }                                                  }