Geant4 Cross Reference

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Geant4/processes/electromagnetic/standard/src/G4UrbanFluctuation.cc

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Diff markup

Differences between /processes/electromagnetic/standard/src/G4UrbanFluctuation.cc (Version 11.3.0) and /processes/electromagnetic/standard/src/G4UrbanFluctuation.cc (Version 9.1.p1)


  1 //                                                  1 
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 24 // *******************************************    
 25 //                                                
 26 //                                                
 27 // -------------------------------------------    
 28 //                                                
 29 // GEANT4 Class file                              
 30 //                                                
 31 //                                                
 32 // File name:     G4UrbanFluctuation              
 33 //                                                
 34 // Author:        V. Ivanchenko for Laszlo Urb    
 35 //                                                
 36 // Creation date: 14.02.2022                      
 37 //                                                
 38 // Modifications:                                 
 39 //                                                
 40 //                                                
 41                                                   
 42 //....oooOO0OOooo........oooOO0OOooo........oo    
 43 //....oooOO0OOooo........oooOO0OOooo........oo    
 44                                                   
 45 #include "G4UrbanFluctuation.hh"                  
 46 #include "G4PhysicalConstants.hh"                 
 47 #include "G4SystemOfUnits.hh"                     
 48 #include "Randomize.hh"                           
 49 #include "G4Poisson.hh"                           
 50 #include "G4Material.hh"                          
 51 #include "G4Log.hh"                               
 52                                                   
 53 //....oooOO0OOooo........oooOO0OOooo........oo    
 54                                                   
 55 G4UrbanFluctuation::G4UrbanFluctuation(const G    
 56  : G4UniversalFluctuation(nam)                    
 57 {}                                                
 58                                                   
 59 //....oooOO0OOooo........oooOO0OOooo........oo    
 60                                                   
 61 G4UrbanFluctuation::~G4UrbanFluctuation() = de    
 62                                                   
 63 //....oooOO0OOooo........oooOO0OOooo........oo    
 64                                                   
 65 G4double G4UrbanFluctuation::SampleGlandz(CLHE    
 66                                           cons    
 67             const G4double tcut)                  
 68 {                                                 
 69   if (material != lastMaterial) {                 
 70     auto ioni = material->GetIonisation();        
 71     f1Fluct = ioni->GetF1fluct();                 
 72     f2Fluct = ioni->GetF2fluct();                 
 73     e1Fluct = ioni->GetEnergy1fluct();            
 74     e2Fluct = ioni->GetEnergy2fluct();            
 75     e1LogFluct = ioni->GetLogEnergy1fluct();      
 76     e2LogFluct = ioni->GetLogEnergy2fluct();      
 77     esmall = 0.5*std::sqrt(e0*ipotFluct);         
 78     lastMaterial = material;                      
 79   }                                               
 80                                                   
 81   G4double a1(0.0), a2(0.0), a3(0.0);             
 82   G4double loss = 0.0;                            
 83   G4double e1 = e1Fluct;                          
 84   G4double e2 = e2Fluct;                          
 85                                                   
 86   if(tcut > ipotFluct) {                          
 87     if(w2 > ipotLogFluct)  {                      
 88       if(w2 > e2LogFluct) {                       
 89   const G4double C = meanLoss*(1.-rate)/(w2-ip    
 90   a1 = C*f1Fluct*(w2-e1LogFluct)/e1Fluct;         
 91   a2 = C*f2Fluct*(w2-e2LogFluct)/e2Fluct;         
 92       } else {                                    
 93   a1 = meanLoss*(1.-rate)/e1;                     
 94       }                                           
 95       if(a1 < a0) {                               
 96         const G4double fwnow = 0.5+(fw-0.5)*st    
 97         a1 /= fwnow;                              
 98         e1 *= fwnow;                              
 99       } else {                                    
100         a1 /= fw;                                 
101         e1 *= fw;                                 
102       }                                           
103     }                                             
104   }                                               
105                                                   
106   const G4double w1 = tcut/e0;                    
107   a3 = rate*meanLoss*(tcut-e0)/(e0*tcut*G4Log(    
108   if(a1+a2 <= 0.) { a3 /= rate; }                 
109                                                   
110   //'nearly' Gaussian fluctuation if a1>nmaxCo    
111   G4double emean = 0.;                            
112   G4double sig2e = 0.;                            
113                                                   
114   // excitation of type 1                         
115   if(a1 > 0.0) { AddExcitation(rndmEngineF, a1    
116                                                   
117   // excitation of type 2                         
118   if(a2 > 0.0) { AddExcitation(rndmEngineF, a2    
119                                                   
120   if(sig2e > 0.0) { SampleGauss(rndmEngineF, e    
121                                                   
122   // ionisation                                   
123   if(a3 > 0.) {                                   
124     emean = 0.;                                   
125     sig2e = 0.;                                   
126     G4double p3 = a3;                             
127     G4double alfa = 1.;                           
128     if(a3 > nmaxCont) {                           
129       alfa = w1*(nmaxCont+a3)/(w1*nmaxCont+a3)    
130       const G4double alfa1  = alfa*G4Log(alfa)    
131       const G4double namean = a3*w1*(alfa-1.)/    
132       emean += namean*e0*alfa1;                   
133       sig2e += e0*e0*namean*(alfa-alfa1*alfa1)    
134       p3 -= namean;                               
135     }                                             
136                                                   
137     const G4double w3 = alfa*e0;                  
138     if(tcut > w3) {                               
139       const G4double w = (tcut-w3)/tcut;          
140       const G4int nnb = (G4int)G4Poisson(p3);     
141       if(nnb > 0) {                               
142         if(nnb > sizearray) {                     
143           sizearray = nnb;                        
144           delete [] rndmarray;                    
145           rndmarray = new G4double[nnb];          
146         }                                         
147         rndmEngineF->flatArray(nnb, rndmarray)    
148         for (G4int k=0; k<nnb; ++k) { loss +=     
149       }                                           
150     }                                             
151     if(sig2e > 0.0) { SampleGauss(rndmEngineF,    
152   }                                               
153   //G4cout << "### loss=" << loss << G4endl;      
154   return loss;                                    
155 }                                                 
156                                                   
157 //....oooOO0OOooo........oooOO0OOooo........oo    
158