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Geant4/processes/electromagnetic/muons/src/G4MuBetheBlochModel.cc

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Differences between /processes/electromagnetic/muons/src/G4MuBetheBlochModel.cc (Version 11.3.0) and /processes/electromagnetic/muons/src/G4MuBetheBlochModel.cc (Version 10.6.p1)


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 27 // -------------------------------------------     27 // -------------------------------------------------------------------
 28 //                                                 28 //
 29 // GEANT4 Class header file                        29 // GEANT4 Class header file
 30 //                                                 30 //
 31 //                                                 31 //
 32 // File name:     G4MuBetheBlochModel              32 // File name:     G4MuBetheBlochModel
 33 //                                                 33 //
 34 // Author:        Vladimir Ivanchenko on base      34 // Author:        Vladimir Ivanchenko on base of Laszlo Urban code
 35 //                                                 35 //
 36 // Creation date: 09.08.2002                       36 // Creation date: 09.08.2002
 37 //                                                 37 //
 38 // Modifications:                                  38 // Modifications:
 39 //                                                 39 //
 40 // 04-12-02 Fix problem of G4DynamicParticle c     40 // 04-12-02 Fix problem of G4DynamicParticle constructor (V.Ivanchenko)
 41 // 23-12-02 Change interface in order to move      41 // 23-12-02 Change interface in order to move to cut per region (V.Ivanchenko)
 42 // 27-01-03 Make models region aware (V.Ivanch     42 // 27-01-03 Make models region aware (V.Ivanchenko)
 43 // 13-02-03 Add name (V.Ivanchenko)                43 // 13-02-03 Add name (V.Ivanchenko)
 44 // 10-02-04 Calculation of radiative correctio     44 // 10-02-04 Calculation of radiative corrections using R.Kokoulin model (V.I)
 45 // 08-04-05 Major optimisation of internal int     45 // 08-04-05 Major optimisation of internal interfaces (V.Ivantchenko)
 46 // 12-04-05 Add usage of G4EmCorrections (V.Iv     46 // 12-04-05 Add usage of G4EmCorrections (V.Ivanchenko)
 47 // 13-02-06 ComputeCrossSectionPerElectron, Co     47 // 13-02-06 ComputeCrossSectionPerElectron, ComputeCrossSectionPerAtom (mma)
 48 //                                                 48 //
 49                                                    49 
 50 //                                                 50 //
 51 // -------------------------------------------     51 // -------------------------------------------------------------------
 52 //                                                 52 //
 53                                                    53 
 54 //....oooOO0OOooo........oooOO0OOooo........oo     54 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
 55 //....oooOO0OOooo........oooOO0OOooo........oo     55 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
 56                                                    56 
 57 #include "G4MuBetheBlochModel.hh"                  57 #include "G4MuBetheBlochModel.hh"
 58 #include "G4PhysicalConstants.hh"                  58 #include "G4PhysicalConstants.hh"
 59 #include "G4SystemOfUnits.hh"                      59 #include "G4SystemOfUnits.hh"
 60 #include "Randomize.hh"                            60 #include "Randomize.hh"
 61 #include "G4Electron.hh"                           61 #include "G4Electron.hh"
 62 #include "G4LossTableManager.hh"                   62 #include "G4LossTableManager.hh"
 63 #include "G4EmCorrections.hh"                      63 #include "G4EmCorrections.hh"
 64 #include "G4ParticleChangeForLoss.hh"              64 #include "G4ParticleChangeForLoss.hh"
 65 #include "G4Log.hh"                                65 #include "G4Log.hh"
 66 #include "G4Exp.hh"                                66 #include "G4Exp.hh"
 67 #include "G4DeltaAngle.hh"                     << 
 68                                                    67 
 69 G4double G4MuBetheBlochModel::xgi[]={ 0.0199,      68 G4double G4MuBetheBlochModel::xgi[]={ 0.0199, 0.1017, 0.2372, 0.4083, 0.5917,
 70                                       0.7628,      69                                       0.7628, 0.8983, 0.9801 };
 71                                                    70                                       
 72 G4double G4MuBetheBlochModel::wgi[]={ 0.0506,      71 G4double G4MuBetheBlochModel::wgi[]={ 0.0506, 0.1112, 0.1569, 0.1813, 0.1813,
 73                                       0.1569,      72                                       0.1569, 0.1112, 0.0506 };
 74                                                    73 
 75 //....oooOO0OOooo........oooOO0OOooo........oo     74 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
 76                                                    75 
                                                   >>  76 using namespace std;
                                                   >>  77 
 77 G4MuBetheBlochModel::G4MuBetheBlochModel(const     78 G4MuBetheBlochModel::G4MuBetheBlochModel(const G4ParticleDefinition* p,
 78                                          const     79                                          const G4String& nam)
 79   : G4VEmModel(nam),                               80   : G4VEmModel(nam),
 80     limitRadCorrection(250.*CLHEP::MeV),       <<  81   particle(nullptr),
 81     limitKinEnergy(100.*CLHEP::keV),           <<  82   limitKinEnergy(100.*keV),
 82     logLimitKinEnergy(G4Log(limitKinEnergy)),  <<  83   logLimitKinEnergy(G4Log(limitKinEnergy)),
 83     twoln10(2.0*G4Log(10.0)),                  <<  84   twoln10(2.0*G4Log(10.0)),
 84     alphaprime(CLHEP::fine_structure_const/CLH <<  85   //bg2lim(0.0169),
                                                   >>  86   //taulim(8.4146e-3),
                                                   >>  87   alphaprime(fine_structure_const/twopi)
 85 {                                                  88 {
 86   theElectron = G4Electron::Electron();            89   theElectron = G4Electron::Electron();
 87   corr = G4LossTableManager::Instance()->EmCor     90   corr = G4LossTableManager::Instance()->EmCorrections();
 88   if(nullptr != p) { SetParticle(p); }         <<  91   fParticleChange = nullptr;
                                                   >>  92 
                                                   >>  93   // initial initialisation of memeber should be overwritten
                                                   >>  94   // by SetParticle
                                                   >>  95   mass = massSquare = ratio = 1.0;
                                                   >>  96 
                                                   >>  97   if(p) { SetParticle(p); }
 89 }                                                  98 }
 90                                                    99 
 91 //....oooOO0OOooo........oooOO0OOooo........oo    100 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
 92                                                   101 
 93 G4double G4MuBetheBlochModel::MinEnergyCut(con    102 G4double G4MuBetheBlochModel::MinEnergyCut(const G4ParticleDefinition*,
 94                                            con    103                                            const G4MaterialCutsCouple* couple)
 95 {                                                 104 {
 96   return couple->GetMaterial()->GetIonisation(    105   return couple->GetMaterial()->GetIonisation()->GetMeanExcitationEnergy();
 97 }                                                 106 }
 98                                                   107 
 99 //....oooOO0OOooo........oooOO0OOooo........oo    108 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.....
100                                                   109 
101 G4double G4MuBetheBlochModel::MaxSecondaryEner    110 G4double G4MuBetheBlochModel::MaxSecondaryEnergy(const G4ParticleDefinition*,
102                                                   111                                                  G4double kinEnergy) 
103 {                                                 112 {
104   G4double tau  = kinEnergy/mass;                 113   G4double tau  = kinEnergy/mass;
105   G4double tmax = 2.0*CLHEP::electron_mass_c2* << 114   G4double tmax = 2.0*electron_mass_c2*tau*(tau + 2.) /
106                   (1. + 2.0*(tau + 1.)*ratio +    115                   (1. + 2.0*(tau + 1.)*ratio + ratio*ratio);
107   return tmax;                                    116   return tmax;
108 }                                                 117 }
109                                                   118 
110 //....oooOO0OOooo........oooOO0OOooo........oo    119 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
111                                                   120 
112 void G4MuBetheBlochModel::SetParticle(const G4 << 
113 {                                              << 
114   if(nullptr == particle) {                    << 
115     particle = p;                              << 
116     mass = particle->GetPDGMass();             << 
117     massSquare = mass*mass;                    << 
118     ratio = CLHEP::electron_mass_c2/mass;      << 
119   }                                            << 
120 }                                              << 
121                                                << 
122 //....oooOO0OOooo........oooOO0OOooo........oo << 
123                                                << 
124 void G4MuBetheBlochModel::Initialise(const G4P    121 void G4MuBetheBlochModel::Initialise(const G4ParticleDefinition* p,
125                                      const G4D    122                                      const G4DataVector&)
126 {                                                 123 {
127   SetParticle(p);                              << 124   if(p) { SetParticle(p); }
128   if(nullptr == fParticleChange) {             << 125   if(!fParticleChange) { fParticleChange = GetParticleChangeForLoss(); }
129     fParticleChange = GetParticleChangeForLoss << 
130     if(UseAngularGeneratorFlag() && nullptr == << 
131       SetAngularDistribution(new G4DeltaAngle( << 
132     }                                          << 
133   }                                            << 
134 }                                                 126 }
135                                                   127 
136 //....oooOO0OOooo........oooOO0OOooo........oo    128 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
137                                                   129 
138 G4double G4MuBetheBlochModel::ComputeCrossSect    130 G4double G4MuBetheBlochModel::ComputeCrossSectionPerElectron(
139                                            con    131                                            const G4ParticleDefinition* p,
140                                                   132                                                  G4double kineticEnergy,
141                                                   133                                                  G4double cutEnergy,
142                                                   134                                                  G4double maxKinEnergy)
143 {                                                 135 {
144   G4double cross = 0.0;                           136   G4double cross = 0.0;
145   G4double tmax = MaxSecondaryEnergy(p, kineti    137   G4double tmax = MaxSecondaryEnergy(p, kineticEnergy);
146   G4double maxEnergy = std::min(tmax, maxKinEn << 138   G4double maxEnergy = min(tmax,maxKinEnergy);
147   if(cutEnergy < maxEnergy) {                     139   if(cutEnergy < maxEnergy) {
148                                                   140 
149     G4double totEnergy = kineticEnergy + mass;    141     G4double totEnergy = kineticEnergy + mass;
150     G4double energy2 = totEnergy*totEnergy;    << 142     G4double energy2   = totEnergy*totEnergy;
151     G4double beta2 = kineticEnergy*(kineticEne << 143     G4double beta2     = kineticEnergy*(kineticEnergy + 2.0*mass)/energy2;
152                                                   144 
153     cross = 1.0/cutEnergy - 1.0/maxEnergy -    << 145     cross = 1.0/cutEnergy - 1.0/maxEnergy - beta2*G4Log(maxEnergy/cutEnergy)/tmax
154       beta2*G4Log(maxEnergy/cutEnergy)/tmax +  << 146           + 0.5*(maxEnergy - cutEnergy)/energy2;
155       0.5*(maxEnergy - cutEnergy)/energy2;     << 
156                                                   147 
157     // radiative corrections of R. Kokoulin       148     // radiative corrections of R. Kokoulin
158     if (maxEnergy > limitKinEnergy && kineticE << 149     if (maxEnergy > limitKinEnergy) {
159                                                   150 
160       G4double logtmax = G4Log(maxEnergy);        151       G4double logtmax = G4Log(maxEnergy);
161       G4double logtmin = G4Log(std::max(cutEne << 152       G4double logtmin = G4Log(max(cutEnergy,limitKinEnergy));
162       G4double logstep = logtmax - logtmin;       153       G4double logstep = logtmax - logtmin;
163       G4double dcross  = 0.0;                     154       G4double dcross  = 0.0;
164                                                   155 
165       for (G4int ll=0; ll<8; ++ll) {           << 156       for (G4int ll=0; ll<8; ll++)
                                                   >> 157       {
166         G4double ep = G4Exp(logtmin + xgi[ll]*    158         G4double ep = G4Exp(logtmin + xgi[ll]*logstep);
167         G4double a1 = G4Log(1.0 + 2.0*ep/CLHEP << 159         G4double a1 = G4Log(1.0 + 2.0*ep/electron_mass_c2);
168         G4double a3 = G4Log(4.0*totEnergy*(tot    160         G4double a3 = G4Log(4.0*totEnergy*(totEnergy - ep)/massSquare);
169         dcross += wgi[ll]*(1.0/ep - beta2/tmax    161         dcross += wgi[ll]*(1.0/ep - beta2/tmax + 0.5*ep/energy2)*a1*(a3 - a1);
170       }                                           162       }
                                                   >> 163 
171       cross += dcross*logstep*alphaprime;         164       cross += dcross*logstep*alphaprime;
172     }                                             165     }
173     cross *= CLHEP::twopi_mc2_rcl2/beta2;      << 166 
                                                   >> 167     cross *= twopi_mc2_rcl2/beta2;
                                                   >> 168 
174   }                                               169   }
                                                   >> 170 
175   //  G4cout << "tmin= " << cutEnergy << " tma    171   //  G4cout << "tmin= " << cutEnergy << " tmax= " << tmax
176   //         << " cross= " << cross << G4endl; << 172   //         << " cross= " << cross << G4endl;
                                                   >> 173   
177   return cross;                                   174   return cross;
178 }                                                 175 }
179                                                   176 
180 //....oooOO0OOooo........oooOO0OOooo........oo    177 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
181                                                   178 
182 G4double G4MuBetheBlochModel::ComputeCrossSect    179 G4double G4MuBetheBlochModel::ComputeCrossSectionPerAtom(
183                                            con    180                                            const G4ParticleDefinition* p,
184                                                   181                                                  G4double kineticEnergy,
185                                                   182                                                  G4double Z, G4double,
186                                                   183                                                  G4double cutEnergy,
187                                                   184                                                  G4double maxEnergy)
188 {                                                 185 {
189   G4double cross = Z*ComputeCrossSectionPerEle    186   G4double cross = Z*ComputeCrossSectionPerElectron
190                                          (p,ki    187                                          (p,kineticEnergy,cutEnergy,maxEnergy);
191   return cross;                                   188   return cross;
192 }                                                 189 }
193                                                   190 
194 //....oooOO0OOooo........oooOO0OOooo........oo    191 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
195                                                   192 
196 G4double G4MuBetheBlochModel::CrossSectionPerV    193 G4double G4MuBetheBlochModel::CrossSectionPerVolume(
197                                            con    194                                            const G4Material* material,
198                                            con    195                                            const G4ParticleDefinition* p,
199                                                   196                                                  G4double kineticEnergy,
200                                                   197                                                  G4double cutEnergy,
201                                                   198                                                  G4double maxEnergy)
202 {                                                 199 {
203   G4double eDensity = material->GetElectronDen    200   G4double eDensity = material->GetElectronDensity();
204   G4double cross = eDensity*ComputeCrossSectio    201   G4double cross = eDensity*ComputeCrossSectionPerElectron
205                                          (p,ki    202                                          (p,kineticEnergy,cutEnergy,maxEnergy);
206   return cross;                                   203   return cross;
207 }                                                 204 }
208                                                   205 
209 //....oooOO0OOooo........oooOO0OOooo........oo    206 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
210                                                   207 
211 G4double G4MuBetheBlochModel::ComputeDEDXPerVo    208 G4double G4MuBetheBlochModel::ComputeDEDXPerVolume(const G4Material* material,
212                                                   209                                                   const G4ParticleDefinition* p,
213                                                   210                                                   G4double kineticEnergy,
214                                                   211                                                   G4double cut)
215 {                                                 212 {
216   G4double tmax  = MaxSecondaryEnergy(p, kinet    213   G4double tmax  = MaxSecondaryEnergy(p, kineticEnergy);
217   G4double tau   = kineticEnergy/mass;            214   G4double tau   = kineticEnergy/mass;
218   G4double cutEnergy = std::min(cut, tmax);    << 215   G4double cutEnergy = min(cut,tmax);
219   G4double gam   = tau + 1.0;                     216   G4double gam   = tau + 1.0;
220   G4double bg2   = tau * (tau+2.0);               217   G4double bg2   = tau * (tau+2.0);
221   G4double beta2 = bg2/(gam*gam);                 218   G4double beta2 = bg2/(gam*gam);
222                                                   219 
223   G4double eexc  = material->GetIonisation()->    220   G4double eexc  = material->GetIonisation()->GetMeanExcitationEnergy();
224   G4double eexc2 = eexc*eexc;                     221   G4double eexc2 = eexc*eexc;
225                                                   222 
226   G4double eDensity = material->GetElectronDen    223   G4double eDensity = material->GetElectronDensity();
227                                                   224 
228   G4double dedx = G4Log(2.0*CLHEP::electron_ma << 225   G4double dedx = G4Log(2.0*electron_mass_c2*bg2*cutEnergy/eexc2)
229                  -(1.0 + cutEnergy/tmax)*beta2    226                  -(1.0 + cutEnergy/tmax)*beta2;
230                                                   227 
231   G4double totEnergy = kineticEnergy + mass;      228   G4double totEnergy = kineticEnergy + mass;
232   G4double del = 0.5*cutEnergy/totEnergy;         229   G4double del = 0.5*cutEnergy/totEnergy;
233   dedx += del*del;                                230   dedx += del*del;
234                                                   231 
235   // density correction                           232   // density correction
236   G4double x = G4Log(bg2)/twoln10;                233   G4double x = G4Log(bg2)/twoln10;
237   dedx -= material->GetIonisation()->DensityCo    234   dedx -= material->GetIonisation()->DensityCorrection(x);
238                                                   235 
239   // shell and high order corrections          << 236   // shell correction
240   dedx -= 2.0*corr->ShellCorrection(p,material    237   dedx -= 2.0*corr->ShellCorrection(p,material,kineticEnergy);
241                                                   238 
                                                   >> 239   // now compute the total ionization loss
                                                   >> 240 
                                                   >> 241   if (dedx < 0.0) dedx = 0.0 ;
                                                   >> 242 
242   // radiative corrections of R. Kokoulin         243   // radiative corrections of R. Kokoulin
243   if (cutEnergy > limitKinEnergy && kineticEne << 244   if (cutEnergy > limitKinEnergy) {
244                                                   245 
245     G4double logtmax = G4Log(cutEnergy);          246     G4double logtmax = G4Log(cutEnergy);
246     G4double logstep = logtmax - logLimitKinEn    247     G4double logstep = logtmax - logLimitKinEnergy;
247     G4double dloss = 0.0;                         248     G4double dloss = 0.0;
248     G4double ftot2= 0.5/(totEnergy*totEnergy);    249     G4double ftot2= 0.5/(totEnergy*totEnergy);
249                                                   250 
250     for (G4int ll=0; ll<8; ++ll) {             << 251     for (G4int ll=0; ll<8; ll++)
                                                   >> 252     {
251       G4double ep = G4Exp(logLimitKinEnergy +     253       G4double ep = G4Exp(logLimitKinEnergy + xgi[ll]*logstep);
252       G4double a1 = G4Log(1.0 + 2.0*ep/CLHEP:: << 254       G4double a1 = G4Log(1.0 + 2.0*ep/electron_mass_c2);
253       G4double a3 = G4Log(4.0*totEnergy*(totEn    255       G4double a3 = G4Log(4.0*totEnergy*(totEnergy - ep)/massSquare);
254       dloss += wgi[ll]*(1.0 - beta2*ep/tmax +     256       dloss += wgi[ll]*(1.0 - beta2*ep/tmax + ep*ep*ftot2)*a1*(a3 - a1);
255     }                                             257     }
256     dedx += dloss*logstep*alphaprime;             258     dedx += dloss*logstep*alphaprime;
257   }                                               259   }
258   dedx *= CLHEP::twopi_mc2_rcl2*eDensity/beta2 << 260 
                                                   >> 261   dedx *= twopi_mc2_rcl2*eDensity/beta2;
259                                                   262 
260   //High order corrections                        263   //High order corrections
261   dedx += corr->HighOrderCorrections(p,materia    264   dedx += corr->HighOrderCorrections(p,material,kineticEnergy,cutEnergy);
262   dedx = std::max(dedx, 0.);                   << 265 
263   return dedx;                                    266   return dedx;
264 }                                                 267 }
265                                                   268 
266 //....oooOO0OOooo........oooOO0OOooo........oo    269 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
267                                                   270 
268 void G4MuBetheBlochModel::SampleSecondaries(   << 271 void G4MuBetheBlochModel::SampleSecondaries(vector<G4DynamicParticle*>* vdp,
269                           std::vector<G4Dynami << 272                                             const G4MaterialCutsCouple*,
270         const G4MaterialCutsCouple* couple,    << 273                                             const G4DynamicParticle* dp,
271         const G4DynamicParticle* dp,           << 274                                             G4double minKinEnergy,
272         G4double minKinEnergy,                 << 275                                             G4double maxEnergy)
273         G4double maxEnergy)                    << 
274 {                                                 276 {
275   G4double kineticEnergy = dp->GetKineticEnerg << 277   G4double tmax = MaxSecondaryKinEnergy(dp);
276   G4double tmax = MaxSecondaryEnergy(dp->GetDe << 278   G4double maxKinEnergy = min(maxEnergy,tmax);
277   G4double maxKinEnergy = std::min(maxEnergy,  << 
278   if(minKinEnergy >= maxKinEnergy) { return; }    279   if(minKinEnergy >= maxKinEnergy) { return; }
279                                                   280 
280   G4double totEnergy = kineticEnergy + mass;   << 281   G4double kineticEnergy = dp->GetKineticEnergy();
281   G4double etot2 = totEnergy*totEnergy;        << 282   G4double totEnergy     = kineticEnergy + mass;
282   G4double beta2 = kineticEnergy*(kineticEnerg << 283   G4double etot2         = totEnergy*totEnergy;
                                                   >> 284   G4double beta2         = kineticEnergy*(kineticEnergy + 2.0*mass)/etot2;
283                                                   285  
284   G4double grej  = 1.;                            286   G4double grej  = 1.;
285   G4bool radC = (tmax > limitKinEnergy && kine << 287   if(tmax > limitKinEnergy) {
286   if(radC) {                                   << 288     G4double a0    = G4Log(2.*totEnergy/mass);
287     G4double a0 = G4Log(2.*totEnergy/mass);    << 289     grej  += alphaprime*a0*a0;
288     grej += alphaprime*a0*a0;                  << 
289   }                                               290   }
290                                                   291 
291   G4double tkin, f;                            << 292   G4double deltaKinEnergy, f;
292                                                   293 
293   // sampling follows ...                         294   // sampling follows ...
294   do {                                            295   do {
295     G4double q = G4UniformRand();                 296     G4double q = G4UniformRand();
296     tkin = minKinEnergy*maxKinEnergy/(minKinEn << 297     deltaKinEnergy = minKinEnergy*maxKinEnergy
297     f = 1.0 - beta2*tkin/tmax + 0.5*tkin*tkin/ << 298                     /(minKinEnergy*(1.0 - q) + maxKinEnergy*q);
                                                   >> 299 
                                                   >> 300 
                                                   >> 301     f = 1.0 - beta2*deltaKinEnergy/tmax 
                                                   >> 302             + 0.5*deltaKinEnergy*deltaKinEnergy/etot2;
298                                                   303 
299     if(radC && tkin > limitKinEnergy) {        << 304     if(deltaKinEnergy > limitKinEnergy) {
300       G4double a1 = G4Log(1.0 + 2.0*tkin/CLHEP << 305       G4double a1 = G4Log(1.0 + 2.0*deltaKinEnergy/electron_mass_c2);
301       G4double a3 = G4Log(4.0*totEnergy*(totEn << 306       G4double a3 = G4Log(4.0*totEnergy*(totEnergy - deltaKinEnergy)/massSquare);
302       f *= (1. + alphaprime*a1*(a3 - a1));        307       f *= (1. + alphaprime*a1*(a3 - a1));
303     }                                             308     }
304                                                   309 
305     if(f > grej) {                                310     if(f > grej) {
306         G4cout << "G4MuBetheBlochModel::Sample    311         G4cout << "G4MuBetheBlochModel::SampleSecondary Warning! "
307                << "Majorant " << grej << " < "    312                << "Majorant " << grej << " < "
308                << f << " for edelta= " << tkin << 313                << f << " for edelta= " << deltaKinEnergy
309                << " tmin= " << minKinEnergy <<    314                << " tmin= " << minKinEnergy << " max= " << maxKinEnergy
310                << G4endl;                         315                << G4endl;
311     }                                             316     }
312     // Loop checking, 03-Aug-2015, Vladimir Iv    317     // Loop checking, 03-Aug-2015, Vladimir Ivanchenko
313   } while( grej*G4UniformRand() > f );            318   } while( grej*G4UniformRand() > f );
314                                                   319 
315   G4ThreeVector deltaDirection;                << 320   G4double deltaMomentum =
                                                   >> 321            sqrt(deltaKinEnergy * (deltaKinEnergy + 2.0*electron_mass_c2));
                                                   >> 322   G4double totalMomentum = totEnergy*sqrt(beta2);
                                                   >> 323   G4double cost = deltaKinEnergy * (totEnergy + electron_mass_c2) /
                                                   >> 324                                    (deltaMomentum * totalMomentum);
                                                   >> 325 
                                                   >> 326   G4double sint = sqrt(1.0 - cost*cost);
                                                   >> 327 
                                                   >> 328   G4double phi = twopi * G4UniformRand() ;
                                                   >> 329 
                                                   >> 330   G4ThreeVector deltaDirection(sint*cos(phi),sint*sin(phi), cost) ;
                                                   >> 331   G4ThreeVector direction = dp->GetMomentumDirection();
                                                   >> 332   deltaDirection.rotateUz(direction);
316                                                   333 
317   if(UseAngularGeneratorFlag()) {              << 334   // primary change
318     const G4Material* mat = couple->GetMateria << 335   kineticEnergy -= deltaKinEnergy;
319     deltaDirection = GetAngularDistribution()- << 336   G4ThreeVector dir = totalMomentum*direction - deltaMomentum*deltaDirection;
320                      SelectRandomAtomNumber(ma << 337   direction = dir.unit();
321   } else {                                     << 338   fParticleChange->SetProposedKineticEnergy(kineticEnergy);
322                                                << 339   fParticleChange->SetProposedMomentumDirection(direction);
323     G4double deltaMom = std::sqrt(tkin * (tkin << 
324     G4double totalMom = totEnergy*std::sqrt(be << 
325     G4double cost = tkin * (totEnergy + CLHEP: << 
326       (deltaMom * totalMom);                   << 
327     cost = std::min(cost, 1.0);                << 
328     const G4double sint = std::sqrt((1.0 - cos << 
329     const G4double phi = twopi*G4UniformRand() << 
330                                                   340 
331     deltaDirection.set(sint*std::cos(phi),sint << 
332     deltaDirection.rotateUz(dp->GetMomentumDir << 
333   }                                            << 
334   // create G4DynamicParticle object for delta    341   // create G4DynamicParticle object for delta ray
335   auto delta = new G4DynamicParticle(theElectr << 342   G4DynamicParticle* delta = new G4DynamicParticle(theElectron,
                                                   >> 343                                                  deltaDirection,deltaKinEnergy);
336   vdp->push_back(delta);                          344   vdp->push_back(delta);
337                                                << 
338   // primary change                            << 
339   kineticEnergy -= tkin;                       << 
340   G4ThreeVector dir = dp->GetMomentum() - delt << 
341   dir = dir.unit();                            << 
342   fParticleChange->SetProposedKineticEnergy(ki << 
343   fParticleChange->SetProposedMomentumDirectio << 
344 }                                                 345 }
345                                                   346 
346 //....oooOO0OOooo........oooOO0OOooo........oo    347 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
347                                                   348