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Geant4/processes/hadronic/cross_sections/src/G4NeutrinoElectronNcXsc.cc

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Diff markup

Differences between /processes/hadronic/cross_sections/src/G4NeutrinoElectronNcXsc.cc (Version 11.3.0) and /processes/hadronic/cross_sections/src/G4NeutrinoElectronNcXsc.cc (Version 8.3.p2)


  1 //                                                  1 
  2 // *******************************************    
  3 // * License and Disclaimer                       
  4 // *                                              
  5 // * The  Geant4 software  is  copyright of th    
  6 // * the Geant4 Collaboration.  It is provided    
  7 // * conditions of the Geant4 Software License    
  8 // * LICENSE and available at  http://cern.ch/    
  9 // * include a list of copyright holders.         
 10 // *                                              
 11 // * Neither the authors of this software syst    
 12 // * institutes,nor the agencies providing fin    
 13 // * work  make  any representation or  warran    
 14 // * regarding  this  software system or assum    
 15 // * use.  Please see the license in the file     
 16 // * for the full disclaimer and the limitatio    
 17 // *                                              
 18 // * This  code  implementation is the result     
 19 // * technical work of the GEANT4 collaboratio    
 20 // * By using,  copying,  modifying or  distri    
 21 // * any work based  on the software)  you  ag    
 22 // * use  in  resulting  scientific  publicati    
 23 // * acceptance of all terms of the Geant4 Sof    
 24 // *******************************************    
 25 //                                                
 26                                                   
 27                                                   
 28 #include "G4NeutrinoElectronNcXsc.hh"             
 29 #include "G4PhysicalConstants.hh"                 
 30 #include "G4SystemOfUnits.hh"                     
 31 #include "G4DynamicParticle.hh"                   
 32 #include "G4ParticleTable.hh"                     
 33 #include "G4IonTable.hh"                          
 34 #include "G4HadTmpUtil.hh"                        
 35 #include "G4Proton.hh"                            
 36 #include "G4NistManager.hh"                       
 37                                                   
 38 using namespace std;                              
 39 using namespace CLHEP;                            
 40                                                   
 41 G4NeutrinoElectronNcXsc::G4NeutrinoElectronNcX    
 42  : G4VCrossSectionDataSet("NuElectronNcXsc")      
 43 {                                                 
 44   // PDG2016: Gf=1.1663787(6)e-5*(hc)^3/GeV^2     
 45   // fCofXsc  = Gf*Gf*MeC2*2/pi                   
 46                                                   
 47   fCofXsc  = 1.36044e-22;                         
 48   fCofXsc *= hbarc*hbarc*electron_mass_c2;        
 49   fCofXsc /= halfpi;                              
 50                                                   
 51   // G4cout<<"hbarc = "<<hbarc/MeV/fermi<<" Me    
 52                                                   
 53   // PDG2016: sin^2 theta Weinberg                
 54                                                   
 55   fSin2tW = 0.23129; // 0.2312;                   
 56                                                   
 57   fCutEnergy = 0.; // default value               
 58   fBiasingFactor = 1.;                            
 59 }                                                 
 60                                                   
 61 G4NeutrinoElectronNcXsc::~G4NeutrinoElectronNc    
 62 {}                                                
 63                                                   
 64 //////////////////////////////////////////////    
 65                                                   
 66 G4bool                                            
 67 G4NeutrinoElectronNcXsc::IsElementApplicable(     
 68 {                                                 
 69   G4bool result  = false;                         
 70   G4String pName = aPart->GetDefinition()->Get    
 71   G4double minEnergy = 0., energy = aPart->Get    
 72   // Z *= 1;                                      
 73   if( fCutEnergy > 0. ) // min detected recoil    
 74   {                                               
 75     minEnergy = 0.5*(fCutEnergy+sqrt(fCutEnerg    
 76   }                                               
 77   if( ( pName == "nu_e"   || pName == "anti_nu    
 78         pName == "nu_mu"  || pName == "anti_nu    
 79         pName == "nu_tau" || pName == "anti_nu    
 80         energy > minEnergy                        
 81   {                                               
 82     result = true;                                
 83   }                                               
 84   return result;                                  
 85 }                                                 
 86                                                   
 87 //////////////////////////////////////////////    
 88                                                   
 89 G4double G4NeutrinoElectronNcXsc::                
 90 GetElementCrossSection(const G4DynamicParticle    
 91            const G4Material*)                     
 92 {                                                 
 93   G4double result = 0., cofL, cofR, cofL2, cof    
 94                                                   
 95   G4double energy = aPart->GetTotalEnergy();      
 96   G4String pName   = aPart->GetDefinition()->G    
 97                                                   
 98   if( pName == "nu_e")                            
 99   {                                               
100     cofL = 0.5 + fSin2tW;                         
101     cofR = fSin2tW;                               
102   }                                               
103   else if( pName == "anti_nu_e")                  
104   {                                               
105     cofL = fSin2tW;                               
106     cofR = 0.5 + fSin2tW;                         
107   }                                               
108   else if( pName == "nu_mu")                      
109   {                                               
110     cofL = -0.5 + fSin2tW;                        
111     cofR = fSin2tW;                               
112   }                                               
113   else if( pName == "anti_nu_mu")                 
114   {                                               
115     cofL = fSin2tW;                               
116     cofR = -0.5 + fSin2tW;                        
117   }                                               
118   else if( pName == "nu_tau") // vmg: nu_tau a    
119   {                                               
120     cofL = -0.5 + fSin2tW;                        
121     cofR = fSin2tW;                               
122   }                                               
123   else if( pName == "anti_nu_tau")                
124   {                                               
125     cofL = fSin2tW;                               
126     cofR = -0.5 + fSin2tW;                        
127   }                                               
128   else                                            
129   {                                               
130     return result;                                
131   }                                               
132   // if( energy <= electron_mass_c2 ) return r    
133                                                   
134   cofL2 = cofL*cofL;                              
135   cofR2 = cofR*cofR;                              
136   cofLR = cofL*cofR;                              
137                                                   
138   if( fCutEnergy > 0. )                           
139   {                                               
140     G4double tM  = 2.*energy*energy/(electron_    
141     G4double tM2 = tM*tM;                         
142     G4double tM3 = tM*tM2;                        
143     G4double tC  = fCutEnergy;                    
144     G4double tC2 = tC*tC;                         
145     G4double tC3 = tC*tC2;                        
146                                                   
147     result  = (cofL2+cofR2)*(tM-tC);              
148     result -= (cofR2+cofLR*0.5*electron_mass_c    
149     result += cofR2*(tM3-tC3)/energy/energy/3.    
150   }                                               
151   else                                            
152   {                                               
153     G4double rtM  = 2.*energy/(electron_mass_c    
154     G4double rtM2 = rtM*rtM;                      
155     G4double rtM3 = rtM*rtM2;                     
156                                                   
157     result  = (cofL2+cofR2)*rtM*energy;           
158     result -= (cofR2*energy+cofLR*0.5*electron    
159     result += cofR2*rtM3*energy/3.;               
160   }                                               
161   // result = cofL*cofL + cofR*cofR/3.;           
162   // G4cout<<"cofL2 + cofR2/3. = "<<result<<G4    
163   // result -= 0.5*cofL*cofR*electron_mass_c2/    
164                                                   
165   G4double aa = 1.;                               
166   G4double bb = 1.7;                              
167   G4double gw = 2.141*GeV;                        
168   G4double dd = 5000.;                            
169   G4double mw = 80.385*GeV;                       
170   G4double mz = 91.1876*GeV;                      
171                                                   
172   G4double emass = electron_mass_c2;              
173   G4double totS  = 2.*energy*emass + emass*ema    
174                                                   
175   if( energy > 50.*GeV )                          
176   {                                               
177     result *= bb;                                 
178     result /= 1.+ aa*totS/mz/mz;                  
179                                                   
180     if( pName == "anti_nu_e")                     
181     {                                             
182       result *= 1. + dd*gw*gw*totS/( (totS-mw*    
183     }                                             
184   }                                               
185                                                   
186   result *= fCofXsc; //*energy;                   
187                                                   
188   result *= ZZ;  // incoherent sum over  all e    
189                                                   
190   result *= fBiasingFactor;                       
191                                                   
192   return result;                                  
193 }                                                 
194                                                   
195