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Geant4/processes/electromagnetic/highenergy/src/G4eeToHadronsModel.cc

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Diff markup

Differences between /processes/electromagnetic/highenergy/src/G4eeToHadronsModel.cc (Version 11.3.0) and /processes/electromagnetic/highenergy/src/G4eeToHadronsModel.cc (Version 4.1)


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  6 // * the Geant4 Collaboration.  It is provided    
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 24 // *******************************************    
 25 //                                                
 26 //                                                
 27 // -------------------------------------------    
 28 //                                                
 29 // GEANT4 Class header file                       
 30 //                                                
 31 //                                                
 32 // File name:     G4eeToHadronsModel              
 33 //                                                
 34 // Author:        Vladimir Ivanchenko             
 35 //                                                
 36 // Creation date: 12.08.2003                      
 37 //                                                
 38 // Modifications:                                 
 39 // 08-04-05 Major optimisation of internal int    
 40 // 18-05-05 Use optimized interfaces (V.Ivantc    
 41 //                                                
 42 //                                                
 43 // -------------------------------------------    
 44 //                                                
 45                                                   
 46                                                   
 47 //....oooOO0OOooo........oooOO0OOooo........oo    
 48 //....oooOO0OOooo........oooOO0OOooo........oo    
 49                                                   
 50 #include "G4eeToHadronsModel.hh"                  
 51 #include "Randomize.hh"                           
 52 #include "G4PhysicalConstants.hh"                 
 53 #include "G4SystemOfUnits.hh"                     
 54 #include "G4Electron.hh"                          
 55 #include "G4Gamma.hh"                             
 56 #include "G4Positron.hh"                          
 57 #include "G4PionPlus.hh"                          
 58 #include "Randomize.hh"                           
 59 #include "G4Vee2hadrons.hh"                       
 60 #include "G4PhysicsVector.hh"                     
 61 #include "G4PhysicsLogVector.hh"                  
 62 #include "G4Log.hh"                               
 63 #include "G4Exp.hh"                               
 64                                                   
 65 //....oooOO0OOooo........oooOO0OOooo........oo    
 66                                                   
 67 using namespace std;                              
 68                                                   
 69 G4eeToHadronsModel::G4eeToHadronsModel(G4Vee2h    
 70                                        const G    
 71   : G4VEmModel(nam),                              
 72     model(mod),                                   
 73     verbose(ver)                                  
 74 {                                                 
 75   theGamma = G4Gamma::Gamma();                    
 76   highKinEnergy = HighEnergyLimit();              
 77   lowKinEnergy  = LowEnergyLimit();               
 78   emin = lowKinEnergy;                            
 79   emax = highKinEnergy;                           
 80   peakKinEnergy = highKinEnergy;                  
 81   epeak = emax;                                   
 82   //verbose = 1;                                  
 83 }                                                 
 84                                                   
 85 //....oooOO0OOooo........oooOO0OOooo........oo    
 86                                                   
 87 G4eeToHadronsModel::~G4eeToHadronsModel()         
 88 {                                                 
 89   delete model;                                   
 90 }                                                 
 91                                                   
 92 //....oooOO0OOooo........oooOO0OOooo........oo    
 93                                                   
 94 void G4eeToHadronsModel::Initialise(const G4Pa    
 95                                     const G4Da    
 96 {                                                 
 97   if(isInitialised) { return; }                   
 98   isInitialised  = true;                          
 99                                                   
100   // CM system                                    
101   emin = model->LowEnergy();                      
102   emax = model->HighEnergy();                     
103                                                   
104   // peak energy                                  
105   epeak = std::min(model->PeakEnergy(), emax);    
106                                                   
107   if(verbose>0) {                                 
108     G4cout << "G4eeToHadronsModel::Initialise:    
109     G4cout << "CM System: emin(MeV)= " << emin    
110            << " epeak(MeV)= " << epeak/MeV        
111            << " emax(MeV)= " << emax/MeV          
112            << G4endl;                             
113   }                                               
114                                                   
115   crossBornPerElectron = model->PhysicsVector(    
116   crossPerElectron     = model->PhysicsVector(    
117   nbins = (G4int)crossPerElectron->GetVectorLe    
118   for(G4int i=0; i<nbins; ++i) {                  
119     G4double e  = crossPerElectron->Energy(i);    
120     G4double cs = model->ComputeCrossSection(e    
121     crossBornPerElectron->PutValue(i, cs);        
122   }                                               
123   ComputeCMCrossSectionPerElectron();             
124                                                   
125   if(verbose>1) {                                 
126     G4cout << "G4eeToHadronsModel: Cross secti    
127            << " nbins= " << nbins                 
128            << " emin(MeV)= " << emin/MeV          
129            << " emax(MeV)= " << emax/MeV          
130            << G4endl;                             
131     for(G4int i=0; i<nbins; ++i) {                
132       G4double e  = crossPerElectron->Energy(i    
133       G4double s1 = crossPerElectron->Value(e)    
134       G4double s2 = crossBornPerElectron->Valu    
135       G4cout << "E(MeV)= " << e/MeV               
136              << "  cross(nb)= " << s1/nanobarn    
137              << "  crossBorn(nb)= " << s2/nano    
138        << G4endl;                                 
139     }                                             
140   }                                               
141 }                                                 
142                                                   
143 //....oooOO0OOooo........oooOO0OOooo........oo    
144                                                   
145 G4double G4eeToHadronsModel::CrossSectionPerVo    
146               const G4Material* mat,              
147               const G4ParticleDefinition* p,      
148               G4double kineticEnergy,             
149               G4double, G4double)                 
150 {                                                 
151   return mat->GetElectronDensity()*               
152     ComputeCrossSectionPerElectron(p, kineticE    
153 }                                                 
154                                                   
155 //....oooOO0OOooo........oooOO0OOooo........oo    
156                                                   
157 G4double G4eeToHadronsModel::ComputeCrossSecti    
158                                       const G4    
159               G4double kineticEnergy,             
160               G4double Z, G4double,               
161               G4double, G4double)                 
162 {                                                 
163   return Z*ComputeCrossSectionPerElectron(p, k    
164 }                                                 
165                                                   
166 //....oooOO0OOooo........oooOO0OOooo........oo    
167                                                   
168 G4double G4eeToHadronsModel::ComputeCrossSecti    
169                                           cons    
170                                                   
171                                                   
172 {                                                 
173   return crossPerElectron->Value(energy);         
174 }                                                 
175                                                   
176 //....oooOO0OOooo........oooOO0OOooo........oo    
177                                                   
178 void G4eeToHadronsModel::SampleSecondaries(std    
179              const G4MaterialCutsCouple*,         
180              const G4DynamicParticle* dParticl    
181              G4double,                            
182              G4double)                            
183 {                                                 
184   G4double t = dParticle->GetKineticEnergy() +    
185   G4LorentzVector inlv = dParticle->Get4Moment    
186     G4LorentzVector(0.0,0.0,0.0,electron_mass_    
187   G4double e = inlv.m();                          
188   G4ThreeVector inBoost = inlv.boostVector();     
189   //G4cout << "G4eeToHadronsModel::SampleSecon    
190   //     << " " << inlv << " " << inBoost <<G4    
191   if(e > emin) {                                  
192     G4DynamicParticle* gamma = GenerateCMPhoto    
193     G4LorentzVector gLv = gamma->Get4Momentum(    
194     G4LorentzVector lv(0.0,0.0,0.0,e);            
195     lv -= gLv;                                    
196     G4double mass = lv.m();                       
197     //G4cout << "mass= " << mass << " " << lv     
198     G4ThreeVector boost = lv.boostVector();       
199     //G4cout << "mass= " << mass << " " << boo    
200     const G4ThreeVector dir = gamma->GetMoment    
201     model->SampleSecondaries(newp, mass, dir);    
202     std::size_t np = newp->size();                
203     for(std::size_t j=0; j<np; ++j) {             
204       G4DynamicParticle* dp = (*newp)[j];         
205       G4LorentzVector v = dp->Get4Momentum();     
206       v.boost(boost);                             
207       //G4cout << j << ". " << v << G4endl;       
208       v.boost(inBoost);                           
209       //G4cout << "   " << v << G4endl;           
210       dp->Set4Momentum(v);                        
211       t -= v.e();                                 
212     }                                             
213     //G4cout << "Gamma   " << gLv << G4endl;      
214     gLv.boost(inBoost);                           
215     //G4cout << "        " << gLv << G4endl;      
216     gamma->Set4Momentum(gLv);                     
217     t -= gLv.e();                                 
218     newp->push_back(gamma);                       
219     if(std::abs(t) > CLHEP::MeV) {                
220       G4cout << "G4eeToHadronsModel::SampleSec    
221        << t/MeV << " primary 4-momentum: " <<     
222     }                                             
223   }                                               
224 }                                                 
225                                                   
226 //....oooOO0OOooo........oooOO0OOooo........oo    
227                                                   
228 void G4eeToHadronsModel::ComputeCMCrossSection    
229 {                                                 
230   for(G4int i=0; i<nbins; i++) {                  
231     G4double e  = crossPerElectron->Energy(i);    
232     G4double cs = 0.0;                            
233     if(i > 0) {                                   
234       G4double LL   = 2.0*G4Log(e/electron_mas    
235       G4double bt  = 2.0*fine_structure_const*    
236       G4double btm1= bt - 1.0;                    
237       G4double del = 1. + fine_structure_const    
238       G4double s1  = crossBornPerElectron->Val    
239       G4double e1  = crossPerElectron->Energy(    
240       G4double x1  = 1. - e1/e;                   
241       cs += s1*(del*G4Exp(G4Log(x1)*bt) - bt*(    
242       if(i > 1) {                                 
243   G4double e2  = e1;                              
244   G4double x2  = x1;                              
245   G4double s2  = crossBornPerElectron->Value(e    
246   G4double w2  = bt*(del*G4Exp(G4Log(x2)*btm1)    
247         G4double w1;                              
248                                                   
249   for(G4int j=i-2; j>=0; --j) {                   
250     e1  = crossPerElectron->Energy(j);            
251     x1  = 1. - e1/e;                              
252     s1  = crossBornPerElectron->Value(e1);        
253     w1  = bt*(del*G4Exp(G4Log(x1)*btm1) - 1.0     
254     cs += 0.5*(x1 - x2)*(w2*s2 + w1*s1);          
255     e2 = e1;                                      
256     x2 = x1;                                      
257     s2 = s1;                                      
258     w2 = w1;                                      
259   }                                               
260       }                                           
261     }                                             
262     crossPerElectron->PutValue(i, cs);            
263   }                                               
264 }                                                 
265                                                   
266 //....oooOO0OOooo........oooOO0OOooo........oo    
267                                                   
268 G4DynamicParticle* G4eeToHadronsModel::Generat    
269 {                                                 
270   G4double x;                                     
271   G4DynamicParticle* gamma = nullptr;             
272   G4double LL   = 2.0*G4Log(e/electron_mass_c2    
273   G4double bt  = 2.0*fine_structure_const*(LL     
274   G4double btm1= bt - 1.0;                        
275   G4double del = 1. + fine_structure_const*(1.    
276                                                   
277   G4double s0 = crossBornPerElectron->Value(e)    
278   G4double de = (emax - emin)/(G4double)nbins;    
279   G4double xmax = 0.5*(1.0 - (emin*emin)/(e*e)    
280   G4double xmin = std::min(de/e, xmax);           
281   G4double ds = s0*(del*G4Exp(G4Log(xmin)*bt)     
282   G4double e1 = e*(1. - xmin);                    
283                                                   
284   //G4cout << "e1= " << e1 << G4endl;             
285   if(e1 < emax && s0*G4UniformRand()<ds) {        
286     x = xmin*G4Exp(G4Log(G4UniformRand())/bt);    
287   } else {                                        
288                                                   
289     x = xmin;                                     
290     G4double s1 = crossBornPerElectron->Value(    
291     G4double w1 = bt*(del*G4Exp(G4Log(x)*btm1)    
292     G4double grej = s1*w1;                        
293     G4double f;                                   
294     /*                                            
295      G4cout << "e(GeV)= " << e/GeV << " epeak(    
296            << " s1= " << s1 << " w1= " << w1      
297            << " grej= " << grej << G4endl;        
298     */                                            
299     // Above emax cross section is const          
300     if(e1 > emax) {                               
301       x  = 0.5*(1. - (emax*emax)/(e*e));          
302       G4double s2 = crossBornPerElectron->Valu    
303       G4double w2 = bt*(del*G4Exp(G4Log(x)*btm    
304       grej = s2*w2;                               
305       //G4cout << "emax= " << emax << " s2= "     
306       // << " grej= " << grej << G4endl;          
307     }                                             
308                                                   
309     if(e1 > epeak) {                              
310       x = 0.5*(1.0 - (epeak*epeak)/(e*e));        
311       G4double s2 = crossBornPerElectron->Valu    
312       G4double w2 = bt*(del*G4Exp(G4Log(x)*btm    
313       grej = std::max(grej,s2*w2);                
314       //G4cout << "epeak= " << epeak << " s2=     
315       //     << " grej= " << grej << G4endl;      
316     }                                             
317     G4int ii = 0;                                 
318     const G4int iimax = 1000;                     
319     do {                                          
320       x = xmin + G4UniformRand()*(xmax - xmin)    
321                                                   
322       G4double s2 = crossBornPerElectron->Valu    
323       G4double w2 = bt*(del*G4Exp(G4Log(x)*btm    
324       /*                                          
325       G4cout << "x= " << x << " xmin= " << xmi    
326            << " s2= " << s2 << " w2= " << w2 <    
327       */                                          
328       f = s2*w2;                                  
329       if(f > grej) {                              
330   G4cout << "G4DynamicParticle* G4eeToHadronsM    
331          << f << " > " << grej << " majorant i    
332          << G4endl;                               
333       }                                           
334       if(++ii >= iimax) { break; }                
335       // Loop checking, 07-Aug-2015, Vladimir     
336     } while (f < grej*G4UniformRand());           
337   }                                               
338                                                   
339   G4ThreeVector dir(0.0,0.0,1.0);                 
340   if(G4UniformRand() > 0.5) { dir.set(0.0,0.0,    
341   //G4cout << "Egamma(MeV)= " << x*e <<  " " <    
342   gamma = new G4DynamicParticle(theGamma,dir,x    
343   return gamma;                                   
344 }                                                 
345                                                   
346 //....oooOO0OOooo........oooOO0OOooo........oo    
347