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Geant4/processes/hadronic/cross_sections/src/G4NeutrinoElectronCcXsc.cc

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Diff markup

Differences between /processes/hadronic/cross_sections/src/G4NeutrinoElectronCcXsc.cc (Version 11.3.0) and /processes/hadronic/cross_sections/src/G4NeutrinoElectronCcXsc.cc (Version 11.0)


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 26                                                    26 
 27                                                    27 
 28 #include "G4NeutrinoElectronCcXsc.hh"              28 #include "G4NeutrinoElectronCcXsc.hh"
 29 #include "G4PhysicalConstants.hh"                  29 #include "G4PhysicalConstants.hh"
 30 #include "G4SystemOfUnits.hh"                      30 #include "G4SystemOfUnits.hh"
 31 #include "G4DynamicParticle.hh"                    31 #include "G4DynamicParticle.hh"
 32 #include "G4ParticleTable.hh"                      32 #include "G4ParticleTable.hh"
 33 #include "G4IonTable.hh"                           33 #include "G4IonTable.hh"
 34 #include "G4HadTmpUtil.hh"                         34 #include "G4HadTmpUtil.hh"
 35 #include "G4NistManager.hh"                        35 #include "G4NistManager.hh"
 36                                                    36 
 37 #include "G4MuonMinus.hh"                          37 #include "G4MuonMinus.hh"
 38 #include "G4TauMinus.hh"                           38 #include "G4TauMinus.hh"
 39                                                    39 
 40 using namespace std;                               40 using namespace std;
 41 using namespace CLHEP;                             41 using namespace CLHEP;
 42                                                    42 
 43 G4NeutrinoElectronCcXsc::G4NeutrinoElectronCcX     43 G4NeutrinoElectronCcXsc::G4NeutrinoElectronCcXsc()
 44  : G4VCrossSectionDataSet("NuElectronCcXsc")       44  : G4VCrossSectionDataSet("NuElectronCcXsc")
 45 {                                                  45 {
 46   // PDG2016: Gf=1.1663787(6)e-5*(hc)^3/GeV^2      46   // PDG2016: Gf=1.1663787(6)e-5*(hc)^3/GeV^2
 47   // fCofXsc  = Gf*Gf*MeC2*2/pi                    47   // fCofXsc  = Gf*Gf*MeC2*2/pi
 48                                                    48 
 49   fCofXsc  = 1.36044e-22;                          49   fCofXsc  = 1.36044e-22;
 50   fCofXsc *= hbarc*hbarc*electron_mass_c2;         50   fCofXsc *= hbarc*hbarc*electron_mass_c2;
 51   fCofXsc /= halfpi;                               51   fCofXsc /= halfpi;
 52                                                    52 
 53   // G4cout<<"fCofXsc = "<<fCofXsc*GeV/cm2<<"      53   // G4cout<<"fCofXsc = "<<fCofXsc*GeV/cm2<<" cm2/GeV"<<G4endl;
 54                                                    54 
 55   // G4cout<<"hbarc = "<<hbarc/MeV/fermi<<" Me     55   // G4cout<<"hbarc = "<<hbarc/MeV/fermi<<" MeV*fermi"<<G4endl;
 56                                                    56 
 57   // PDG2016: sin^2 theta Weinberg                 57   // PDG2016: sin^2 theta Weinberg
 58                                                    58 
 59   fSin2tW = 0.23129; // 0.2312;                    59   fSin2tW = 0.23129; // 0.2312;
 60                                                    60 
 61   fCutEnergy = 0.; // default value                61   fCutEnergy = 0.; // default value
 62                                                    62 
 63   fBiasingFactor = 1.; // default as physics       63   fBiasingFactor = 1.; // default as physics
 64                                                    64 
 65   theMuonMinus = G4MuonMinus::MuonMinus();         65   theMuonMinus = G4MuonMinus::MuonMinus(); 
 66   theTauMinus  = G4TauMinus::TauMinus();           66   theTauMinus  = G4TauMinus::TauMinus(); 
 67 }                                                  67 }
 68                                                    68 
 69 G4NeutrinoElectronCcXsc::~G4NeutrinoElectronCc     69 G4NeutrinoElectronCcXsc::~G4NeutrinoElectronCcXsc() 
 70 {}                                                 70 {}
 71                                                    71 
 72 //////////////////////////////////////////////     72 //////////////////////////////////////////////////////
 73                                                    73 
 74 G4bool                                             74 G4bool 
 75 G4NeutrinoElectronCcXsc::IsElementApplicable(      75 G4NeutrinoElectronCcXsc::IsElementApplicable( const G4DynamicParticle* aPart, G4int, const G4Material*)
 76 {                                                  76 {
 77   G4bool result  = false;                          77   G4bool result  = false;
 78   G4String pName = aPart->GetDefinition()->Get     78   G4String pName = aPart->GetDefinition()->GetParticleName();
 79   G4double minEnergy = 0., energy = aPart->Get     79   G4double minEnergy = 0., energy = aPart->GetTotalEnergy();
 80   G4double fmass, emass = electron_mass_c2;        80   G4double fmass, emass = electron_mass_c2;
 81                                                    81 
 82   if(    pName == "anti_nu_e" ||   pName == "n     82   if(    pName == "anti_nu_e" ||   pName == "nu_mu"   || pName == "anti_nu_mu"  ) fmass = theMuonMinus->GetPDGMass(); 
 83   else if( pName == "nu_tau"  || pName == "ant     83   else if( pName == "nu_tau"  || pName == "anti_nu_tau" ) fmass = theTauMinus->GetPDGMass(); 
 84   else fmass = emass;                              84   else fmass = emass;
 85                                                    85 
 86   minEnergy = (fmass-emass)*(fmass+emass)/emas     86   minEnergy = (fmass-emass)*(fmass+emass)/emass;
 87                                                    87   
 88   if( ( pName == "nu_mu"  || pName == "anti_nu     88   if( ( pName == "nu_mu"  || pName == "anti_nu_mu"  || 
 89         pName == "nu_tau" || pName == "anti_nu     89         pName == "nu_tau" || pName == "anti_nu_tau"   ) &&
 90         energy > minEnergy                         90         energy > minEnergy                                 )
 91   {                                                91   {
 92     result = true;                                 92     result = true;
 93   }                                                93   }
 94   return result;                                   94   return result;
 95 }                                                  95 }
 96                                                    96 
 97 //////////////////////////////////////////////     97 ////////////////////////////////////////////////////
 98                                                    98 
 99 G4double G4NeutrinoElectronCcXsc::                 99 G4double G4NeutrinoElectronCcXsc::
100 GetElementCrossSection(const G4DynamicParticle    100 GetElementCrossSection(const G4DynamicParticle* aPart, G4int ZZ,  
101            const G4Material*)                     101            const G4Material*) 
102 {                                                 102 {
103   G4double result = 0., totS, fmass, fmass2, e    103   G4double result = 0., totS, fmass, fmass2, emass=electron_mass_c2, emass2;
104                                                   104 
105   G4double energy = aPart->GetTotalEnergy();      105   G4double energy = aPart->GetTotalEnergy();
106   G4String pName   = aPart->GetDefinition()->G    106   G4String pName   = aPart->GetDefinition()->GetParticleName();
107                                                   107 
108   emass2 = emass*emass;                           108   emass2 = emass*emass;
109   totS   = 2.*energy*emass + emass2;              109   totS   = 2.*energy*emass + emass2;
110                                                   110 
111   if( pName == "anti_nu_e" || pName == "nu_mu"    111   if( pName == "anti_nu_e" || pName == "nu_mu")
112   {                                               112   {
113     fmass  = theMuonMinus->GetPDGMass();          113     fmass  = theMuonMinus->GetPDGMass();
114     fmass2 = fmass*fmass;                         114     fmass2 = fmass*fmass;
115     result = (1. - fmass2/totS)*(1. - fmass2/t    115     result = (1. - fmass2/totS)*(1. - fmass2/totS);
116   }                                               116   }
117   else if( pName == "anti_nu_mu")                 117   else if( pName == "anti_nu_mu")
118   {                                               118   {
119     fmass  = theMuonMinus->GetPDGMass();          119     fmass  = theMuonMinus->GetPDGMass();
120     fmass2 = fmass*fmass;                         120     fmass2 = fmass*fmass;
121                                                   121 
122     result  = (1.+ emass2/totS)*(1.+ fmass2/to    122     result  = (1.+ emass2/totS)*(1.+ fmass2/totS);
123     result += (1.- emass2/totS)*(1.- fmass2/to    123     result += (1.- emass2/totS)*(1.- fmass2/totS)/3.;
124     result *= 0.25*(1. - fmass2/totS)*(1. - fm    124     result *= 0.25*(1. - fmass2/totS)*(1. - fmass2/totS);
125   }                                               125   }
126   else if( pName == "nu_tau")                     126   else if( pName == "nu_tau") 
127   {                                               127   {
128     fmass  = theTauMinus->GetPDGMass();           128     fmass  = theTauMinus->GetPDGMass();
129     fmass2 = fmass*fmass;                         129     fmass2 = fmass*fmass;
130     result = (1. - fmass2/totS)*(1. - fmass2/t    130     result = (1. - fmass2/totS)*(1. - fmass2/totS);
131   }                                               131   }
132   else if( pName == "anti_nu_tau")                132   else if( pName == "anti_nu_tau")
133   {                                               133   {
134     fmass  = theTauMinus->GetPDGMass();           134     fmass  = theTauMinus->GetPDGMass();
135     fmass2 = fmass*fmass;                         135     fmass2 = fmass*fmass;
136                                                   136 
137     result  = (1.+ emass2/totS)*(1.+ fmass2/to    137     result  = (1.+ emass2/totS)*(1.+ fmass2/totS);
138     result += (1.- emass2/totS)*(1.- fmass2/to    138     result += (1.- emass2/totS)*(1.- fmass2/totS)/3.;
139     result *= 0.25*(1. - fmass2/totS)*(1. - fm    139     result *= 0.25*(1. - fmass2/totS)*(1. - fmass2/totS);
140   }                                               140   }
141   else                                            141   else
142   {                                               142   {
143     return result;                                143     return result;
144   }                                               144   }
145   // if( energy <= electron_mass_c2 ) return r    145   // if( energy <= electron_mass_c2 ) return result;
146                                                   146 
147   G4double aa = 1.;                               147   G4double aa = 1.;
148   G4double bb = 1.7;                              148   G4double bb = 1.7;
149   G4double gw = 2.141*GeV;                        149   G4double gw = 2.141*GeV;
150   G4double dd = 5000.;                            150   G4double dd = 5000.;
151   G4double mw = 80.385*GeV;                       151   G4double mw = 80.385*GeV;
152                                                   152 
153   if( energy > 50.*GeV )                          153   if( energy > 50.*GeV )
154   {                                               154   {
155     result *= bb;                                 155     result *= bb;
156     result /= 1.+ aa*totS/mw/mw;                  156     result /= 1.+ aa*totS/mw/mw;
157                                                   157 
158     if( pName == "anti_nu_e")                     158     if( pName == "anti_nu_e")
159     {                                             159     {
160       result *= 1. + dd*gw*gw*totS/( (totS-mw*    160       result *= 1. + dd*gw*gw*totS/( (totS-mw*mw)*(totS-mw*mw)+gw*gw*mw*mw );
161     }                                             161     }
162   }                                               162   }
163   result *= fCofXsc; //*energy;                   163   result *= fCofXsc; //*energy;
164   result *= energy + 0.5*emass;                   164   result *= energy + 0.5*emass;
165   result *= ZZ;  // incoherent sum over  all e    165   result *= ZZ;  // incoherent sum over  all element electrons
166                                                   166 
167   result *= fBiasingFactor; // biasing up, if     167   result *= fBiasingFactor; // biasing up, if set >1
168                                                   168 
169   return result;                                  169   return result;
170 }                                                 170 }
171                                                   171 
172                                                   172