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Geant4/processes/electromagnetic/utils/src/G4ionEffectiveCharge.cc

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Diff markup

Differences between /processes/electromagnetic/utils/src/G4ionEffectiveCharge.cc (Version 11.3.0) and /processes/electromagnetic/utils/src/G4ionEffectiveCharge.cc (Version 10.7.p3)


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 27 // -------------------------------------------     27 // -------------------------------------------------------------------
 28 //                                                 28 //
 29 // GEANT4 Class file                               29 // GEANT4 Class file
 30 //                                                 30 //
 31 //                                                 31 //
 32 // File name:     G4ionEffectiveCharge             32 // File name:     G4ionEffectiveCharge
 33 //                                                 33 //
 34 // Author:        Vladimir Ivanchenko              34 // Author:        Vladimir Ivanchenko
 35 //                                                 35 //
 36 // Creation date: 07.05.2002                       36 // Creation date: 07.05.2002
 37 //                                                 37 //
 38 // Modifications:                                  38 // Modifications:
 39 // 12.09.2004 Set low energy limit to 1 keV (V     39 // 12.09.2004 Set low energy limit to 1 keV (V.Ivanchenko) 
 40 // 25.01.2005 Add protection - min Charge 0.1      40 // 25.01.2005 Add protection - min Charge 0.1 eplus (V.Ivanchenko) 
 41 // 28.04.2006 Set upper energy limit to 50 MeV     41 // 28.04.2006 Set upper energy limit to 50 MeV (V.Ivanchenko) 
 42 // 23.05.2006 Set upper energy limit to Z*10 M     42 // 23.05.2006 Set upper energy limit to Z*10 MeV (V.Ivanchenko) 
 43 // 15.08.2006 Add protection for not defined m     43 // 15.08.2006 Add protection for not defined material (V.Ivanchenko) 
 44 // 27-09-2007 Use Fermi energy from material,      44 // 27-09-2007 Use Fermi energy from material, optimazed formulas (V.Ivanchenko)
 45 //                                                 45 //
 46                                                    46 
 47 // -------------------------------------------     47 // -------------------------------------------------------------------
 48 //                                                 48 //
 49 //....oooOO0OOooo........oooOO0OOooo........oo     49 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
 50 //....oooOO0OOooo........oooOO0OOooo........oo     50 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
 51                                                    51 
 52 #include "G4ionEffectiveCharge.hh"                 52 #include "G4ionEffectiveCharge.hh"
 53 #include "G4PhysicalConstants.hh"                  53 #include "G4PhysicalConstants.hh"
 54 #include "G4SystemOfUnits.hh"                      54 #include "G4SystemOfUnits.hh"
 55 #include "G4UnitsTable.hh"                         55 #include "G4UnitsTable.hh"
 56 #include "G4Material.hh"                           56 #include "G4Material.hh"
 57 #include "G4NistManager.hh"                        57 #include "G4NistManager.hh"
 58 #include "G4Log.hh"                                58 #include "G4Log.hh"
 59 #include "G4Exp.hh"                                59 #include "G4Exp.hh"
 60 #include "G4Pow.hh"                                60 #include "G4Pow.hh"
 61                                                    61 
 62 //....oooOO0OOooo........oooOO0OOooo........oo     62 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
 63                                                    63 
 64 G4ionEffectiveCharge::G4ionEffectiveCharge()       64 G4ionEffectiveCharge::G4ionEffectiveCharge()
 65 {                                                  65 {
 66   chargeCorrection = 1.0;                          66   chargeCorrection = 1.0;
 67   energyHighLimit  = 20.0*CLHEP::MeV;          <<  67   energyHighLimit  = 20.0*MeV;
 68   energyLowLimit   = 1.0*CLHEP::keV;           <<  68   energyLowLimit   = 1.0*keV;
 69   energyBohr       = 25.*CLHEP::keV;           <<  69   energyBohr       = 25.*keV;
 70   massFactor       = CLHEP::amu_c2/(CLHEP::pro <<  70   massFactor       = amu_c2/(proton_mass_c2*keV);
 71   minCharge        = 1.0;                          71   minCharge        = 1.0;
                                                   >>  72   lastPart         = 0;
                                                   >>  73   lastMat          = 0;
 72   lastKinEnergy    = 0.0;                          74   lastKinEnergy    = 0.0;
 73   effCharge        = CLHEP::eplus;             <<  75   effCharge        = eplus;
 74   inveplus         = 1.0/CLHEP::eplus;             76   inveplus         = 1.0/CLHEP::eplus;
 75   g4calc = G4Pow::GetInstance();                   77   g4calc = G4Pow::GetInstance();
 76 }                                                  78 }
 77                                                    79 
 78 //....oooOO0OOooo........oooOO0OOooo........oo     80 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
 79                                                    81 
                                                   >>  82 G4ionEffectiveCharge::~G4ionEffectiveCharge()
                                                   >>  83 {}
                                                   >>  84 
                                                   >>  85 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
                                                   >>  86 
 80 G4double G4ionEffectiveCharge::EffectiveCharge     87 G4double G4ionEffectiveCharge::EffectiveCharge(const G4ParticleDefinition* p,
 81                                                    88                                                const G4Material* material,
 82                                                    89                                                G4double kineticEnergy)
 83 {                                                  90 {
 84   if(p == lastPart && material == lastMat && k     91   if(p == lastPart && material == lastMat && kineticEnergy == lastKinEnergy)
 85     return effCharge;                              92     return effCharge;
 86                                                    93 
 87   lastPart      = p;                               94   lastPart      = p;
 88   lastMat       = material;                        95   lastMat       = material;
 89   lastKinEnergy = kineticEnergy;                   96   lastKinEnergy = kineticEnergy;
 90                                                    97 
 91   G4double mass = p->GetPDGMass();             <<  98   G4double mass   = p->GetPDGMass();
 92   effCharge = p->GetPDGCharge();               <<  99   G4double charge = p->GetPDGCharge();
 93   G4int Zi = G4lrint(effCharge*inveplus);      << 100   G4double Zi     = charge*inveplus;
                                                   >> 101 
 94   chargeCorrection = 1.0;                         102   chargeCorrection = 1.0;
 95   if(Zi <= 1) { return effCharge; }            << 103   effCharge = charge;
 96                                                   104 
 97   // The aproximation of ion effective charge     105   // The aproximation of ion effective charge from:
 98   // J.F.Ziegler, J.P. Biersack, U. Littmark      106   // J.F.Ziegler, J.P. Biersack, U. Littmark
 99   // The Stopping and Range of Ions in Matter,    107   // The Stopping and Range of Ions in Matter,
100   // Vol.1, Pergamon Press, 1985                  108   // Vol.1, Pergamon Press, 1985
101   // Fast ions or hadrons                         109   // Fast ions or hadrons
102   G4double reducedEnergy = kineticEnergy * CLH << 110   G4double reducedEnergy = kineticEnergy * proton_mass_c2/mass ;
103                                                   111 
104   //G4cout << "e= " << reducedEnergy << " Zi=     112   //G4cout << "e= " << reducedEnergy << " Zi= " << Zi << "  " 
105   //<< material->GetName() << G4endl;             113   //<< material->GetName() << G4endl;
106                                                   114 
107   if(reducedEnergy > effCharge*energyHighLimit << 115   if(Zi < 1.5 || !material || reducedEnergy > Zi*energyHighLimit ) {
108     return effCharge;                          << 116     return charge;
109   }                                               117   }
110   G4double z = material->GetIonisation()->GetZ << 118   G4double z    = material->GetIonisation()->GetZeffective();
111   reducedEnergy = std::max(reducedEnergy,energ    119   reducedEnergy = std::max(reducedEnergy,energyLowLimit);
112                                                   120 
113   // Helium ion case                              121   // Helium ion case
114   if( Zi <= 2 ) {                              << 122   if( Zi < 2.5 ) {
115                                                   123 
116     static const G4double c[6] =                  124     static const G4double c[6] = 
117       {0.2865,0.1266,-0.001429,0.02402,-0.0113    125       {0.2865,0.1266,-0.001429,0.02402,-0.01135,0.001475};
118                                                   126 
119     G4double Q = std::max(0.0,G4Log(reducedEne    127     G4double Q = std::max(0.0,G4Log(reducedEnergy*massFactor));
120     G4double x = c[0];                            128     G4double x = c[0];
121     G4double y = 1.0;                             129     G4double y = 1.0;
122     for (G4int i=1; i<6; ++i) {                   130     for (G4int i=1; i<6; ++i) {
123       y *= Q;                                     131       y *= Q;
124       x += y * c[i] ;                             132       x += y * c[i] ;
125     }                                             133     }
126     G4double ex = (x < 0.2) ? x * (1 - 0.5*x)  << 134     G4double ex;
                                                   >> 135     if(x < 0.2) { ex = x * (1 - 0.5*x); }
                                                   >> 136     else        { ex = 1. - G4Exp(-x); }
127                                                   137 
128     G4double tq = 7.6 - Q;                        138     G4double tq = 7.6 - Q;
129     G4double tq2= tq*tq;                          139     G4double tq2= tq*tq;
130     G4double tt = ( 0.007 + 0.00005 * z );        140     G4double tt = ( 0.007 + 0.00005 * z );
131     if(tq2 < 0.2) { tt *= (1.0 - tq2 + 0.5*tq2    141     if(tq2 < 0.2) { tt *= (1.0 - tq2 + 0.5*tq2*tq2); }
132     else          { tt *= G4Exp(-tq2); }          142     else          { tt *= G4Exp(-tq2); }
133                                                   143 
134     effCharge *= (1.0 + tt) * std::sqrt(ex);   << 144     effCharge = charge*(1.0 + tt) * std::sqrt(ex);
135                                                   145 
136     // Heavy ion case                             146     // Heavy ion case
137   } else {                                        147   } else {
138                                                   148     
139     G4double zi13 = g4calc->Z13(Zi);           << 149     G4double y;
                                                   >> 150     G4double zi13 = g4calc->A13(Zi);
140     G4double zi23 = zi13*zi13;                    151     G4double zi23 = zi13*zi13;
141                                                   152 
142     // v1 is ion velocity in vF unit              153     // v1 is ion velocity in vF unit
143     G4double eF   = material->GetIonisation()-    154     G4double eF   = material->GetIonisation()->GetFermiEnergy();
144     G4double v1sq = reducedEnergy/eF;             155     G4double v1sq = reducedEnergy/eF;
145     G4double vFsq = eF/energyBohr;                156     G4double vFsq = eF/energyBohr;
146     G4double vF = std::sqrt(vFsq);             << 157     G4double vF   = std::sqrt(eF/energyBohr);
                                                   >> 158 
                                                   >> 159     // Faster than Fermi velocity
                                                   >> 160     if ( v1sq > 1.0 ) {
                                                   >> 161       y = vF * std::sqrt(v1sq) * ( 1.0 + 0.2/v1sq ) / zi23 ;
147                                                   162 
148     G4double y = ( v1sq > 1.0 )                << 
149       // Faster than Fermi velocity            << 
150       ? vF * std::sqrt(v1sq) * ( 1.0 + 0.2/v1s << 
151       // Slower than Fermi velocity               163       // Slower than Fermi velocity
152       : 0.692308 * vF * (1.0 + 0.666666*v1sq + << 164     } else {
                                                   >> 165       y = 0.692308 * vF * (1.0 + 0.666666*v1sq + v1sq*v1sq/15.0) / zi23 ;
                                                   >> 166     }
153                                                   167 
154     G4double y3 = G4Exp(0.3*G4Log(y));         << 168     G4double q;
                                                   >> 169     G4double y3 = std::pow(y, 0.3) ;
155     // G4cout<<"y= "<<y<<" y3= "<<y3<<" v1= "<    170     // G4cout<<"y= "<<y<<" y3= "<<y3<<" v1= "<<v1<<" vF= "<<vF<<G4endl; 
156     G4double q = std::max(1.0 - G4Exp( 0.803*y << 171     q = 1.0 - G4Exp( 0.803*y3 - 1.3167*y3*y3 - 0.38157*y - 0.008983*y*y);   
157                                      - 0.00898 << 172     q = std::max(q,  minCharge/Zi); 
                                                   >> 173   
                                                   >> 174     effCharge = q*charge;
158                                                   175     
159     // compute charge correction               << 176     G4double tq = 7.6 - G4Log(reducedEnergy/keV);
160     G4double tq = 7.6 - G4Log(reducedEnergy/CL << 
161     G4double tq2= tq*tq;                          177     G4double tq2= tq*tq;
162     G4double sq = 1.0 + ( 0.18 + 0.0015 * z )* << 178     G4double sq = 1.0 + ( 0.18 + 0.0015 * z )*G4Exp(-tq2)/ (Zi*Zi);
                                                   >> 179  
163     //    G4cout << "sq= " << sq << G4endl;       180     //    G4cout << "sq= " << sq << G4endl;
164                                                   181 
165     // Screen length according to                 182     // Screen length according to
166     // J.F.Ziegler and J.M.Manoyan, The stoppi    183     // J.F.Ziegler and J.M.Manoyan, The stopping of ions in compaunds,
167     // Nucl. Inst. & Meth. in Phys. Res. B35 (    184     // Nucl. Inst. & Meth. in Phys. Res. B35 (1988) 215-228.
168                                                   185 
169     G4double lambda = 10.0 * vF *g4calc->A23(1    186     G4double lambda = 10.0 * vF *g4calc->A23(1.0 - q)/ (zi13 * (6.0 + q));
                                                   >> 187 
170     G4double lambda2 = lambda*lambda;             188     G4double lambda2 = lambda*lambda;
                                                   >> 189 
171     G4double xx = (0.5/q - 0.5)*G4Log(1.0 + la    190     G4double xx = (0.5/q - 0.5)*G4Log(1.0 + lambda2)/vFsq;
172                                                   191 
173     effCharge *= q;                            << 
174     chargeCorrection = sq * (1.0 + xx);           192     chargeCorrection = sq * (1.0 + xx);
                                                   >> 193     
175   }                                               194   }
176   //  G4cout << "G4ionEffectiveCharge: charge=    195   //  G4cout << "G4ionEffectiveCharge: charge= " << charge << " q= " << q 
177   //         << " chargeCor= " << chargeCorrec    196   //         << " chargeCor= " << chargeCorrection 
178   //           << " e(MeV)= " << kineticEnergy    197   //           << " e(MeV)= " << kineticEnergy/MeV << G4endl;
179   return effCharge;                               198   return effCharge;
180 }                                                 199 }
181                                                   200 
182 //....oooOO0OOooo........oooOO0OOooo........oo    201 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
                                                   >> 202 
                                                   >> 203 
183                                                   204