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>> 66 64 G4ionEffectiveCharge::G4ionEffectiveCharge() 67 G4ionEffectiveCharge::G4ionEffectiveCharge() 65 { 68 { 66 chargeCorrection = 1.0; 69 chargeCorrection = 1.0; 67 energyHighLimit = 20.0*CLHEP::MeV; << 70 energyHighLimit = 20.0*MeV; 68 energyLowLimit = 1.0*CLHEP::keV; << 71 energyLowLimit = 1.0*keV; 69 energyBohr = 25.*CLHEP::keV; << 72 energyBohr = 25.*keV; 70 massFactor = CLHEP::amu_c2/(CLHEP::pro << 73 massFactor = amu_c2/(proton_mass_c2*keV); 71 minCharge = 1.0; 74 minCharge = 1.0; >> 75 lastPart = 0; >> 76 lastMat = 0; 72 lastKinEnergy = 0.0; 77 lastKinEnergy = 0.0; 73 effCharge = CLHEP::eplus; << 78 effCharge = eplus; 74 inveplus = 1.0/CLHEP::eplus; << 79 g4pow = G4Pow::GetInstance(); 75 g4calc = G4Pow::GetInstance(); << 76 } 80 } 77 81 78 //....oooOO0OOooo........oooOO0OOooo........oo 82 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 79 83 >> 84 G4ionEffectiveCharge::~G4ionEffectiveCharge() >> 85 {} >> 86 >> 87 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... >> 88 80 G4double G4ionEffectiveCharge::EffectiveCharge 89 G4double G4ionEffectiveCharge::EffectiveCharge(const G4ParticleDefinition* p, 81 90 const G4Material* material, 82 91 G4double kineticEnergy) 83 { 92 { 84 if(p == lastPart && material == lastMat && k 93 if(p == lastPart && material == lastMat && kineticEnergy == lastKinEnergy) 85 return effCharge; 94 return effCharge; 86 95 87 lastPart = p; 96 lastPart = p; 88 lastMat = material; 97 lastMat = material; 89 lastKinEnergy = kineticEnergy; 98 lastKinEnergy = kineticEnergy; 90 99 91 G4double mass = p->GetPDGMass(); << 100 G4double mass = p->GetPDGMass(); 92 effCharge = p->GetPDGCharge(); << 101 G4double charge = p->GetPDGCharge(); 93 G4int Zi = G4lrint(effCharge*inveplus); << 102 G4double Zi = charge*inveplus; >> 103 94 chargeCorrection = 1.0; 104 chargeCorrection = 1.0; 95 if(Zi <= 1) { return effCharge; } << 105 effCharge = charge; 96 106 97 // The aproximation of ion effective charge 107 // The aproximation of ion effective charge from: 98 // J.F.Ziegler, J.P. Biersack, U. Littmark 108 // J.F.Ziegler, J.P. Biersack, U. Littmark 99 // The Stopping and Range of Ions in Matter, 109 // The Stopping and Range of Ions in Matter, 100 // Vol.1, Pergamon Press, 1985 110 // Vol.1, Pergamon Press, 1985 101 // Fast ions or hadrons 111 // Fast ions or hadrons 102 G4double reducedEnergy = kineticEnergy * CLH << 112 G4double reducedEnergy = kineticEnergy * proton_mass_c2/mass ; 103 113 104 //G4cout << "e= " << reducedEnergy << " Zi= 114 //G4cout << "e= " << reducedEnergy << " Zi= " << Zi << " " 105 //<< material->GetName() << G4endl; 115 //<< material->GetName() << G4endl; 106 116 107 if(reducedEnergy > effCharge*energyHighLimit << 117 if(Zi < 1.5 || !material || reducedEnergy > Zi*energyHighLimit ) { 108 return effCharge; << 118 return charge; 109 } 119 } 110 G4double z = material->GetIonisation()->GetZ << 120 G4double z = material->GetIonisation()->GetZeffective(); 111 reducedEnergy = std::max(reducedEnergy,energ 121 reducedEnergy = std::max(reducedEnergy,energyLowLimit); 112 122 113 // Helium ion case 123 // Helium ion case 114 if( Zi <= 2 ) { << 124 if( Zi < 2.5 ) { 115 125 116 static const G4double c[6] = 126 static const G4double c[6] = 117 {0.2865,0.1266,-0.001429,0.02402,-0.0113 127 {0.2865,0.1266,-0.001429,0.02402,-0.01135,0.001475}; 118 128 119 G4double Q = std::max(0.0,G4Log(reducedEne 129 G4double Q = std::max(0.0,G4Log(reducedEnergy*massFactor)); 120 G4double x = c[0]; 130 G4double x = c[0]; 121 G4double y = 1.0; 131 G4double y = 1.0; 122 for (G4int i=1; i<6; ++i) { 132 for (G4int i=1; i<6; ++i) { 123 y *= Q; 133 y *= Q; 124 x += y * c[i] ; 134 x += y * c[i] ; 125 } 135 } 126 G4double ex = (x < 0.2) ? x * (1 - 0.5*x) << 136 G4double ex; >> 137 if(x < 0.2) { ex = x * (1 - 0.5*x); } >> 138 else { ex = 1. - G4Exp(-x); } 127 139 128 G4double tq = 7.6 - Q; 140 G4double tq = 7.6 - Q; 129 G4double tq2= tq*tq; 141 G4double tq2= tq*tq; 130 G4double tt = ( 0.007 + 0.00005 * z ); 142 G4double tt = ( 0.007 + 0.00005 * z ); 131 if(tq2 < 0.2) { tt *= (1.0 - tq2 + 0.5*tq2 143 if(tq2 < 0.2) { tt *= (1.0 - tq2 + 0.5*tq2*tq2); } 132 else { tt *= G4Exp(-tq2); } 144 else { tt *= G4Exp(-tq2); } 133 145 134 effCharge *= (1.0 + tt) * std::sqrt(ex); << 146 effCharge = charge*(1.0 + tt) * std::sqrt(ex); 135 147 136 // Heavy ion case 148 // Heavy ion case 137 } else { 149 } else { 138 150 139 G4double zi13 = g4calc->Z13(Zi); << 151 G4double y; >> 152 G4double zi13 = g4pow->A13(Zi); 140 G4double zi23 = zi13*zi13; 153 G4double zi23 = zi13*zi13; 141 154 142 // v1 is ion velocity in vF unit 155 // v1 is ion velocity in vF unit 143 G4double eF = material->GetIonisation()- 156 G4double eF = material->GetIonisation()->GetFermiEnergy(); 144 G4double v1sq = reducedEnergy/eF; 157 G4double v1sq = reducedEnergy/eF; 145 G4double vFsq = eF/energyBohr; 158 G4double vFsq = eF/energyBohr; 146 G4double vF = std::sqrt(vFsq); << 159 G4double vF = std::sqrt(eF/energyBohr); >> 160 >> 161 // Faster than Fermi velocity >> 162 if ( v1sq > 1.0 ) { >> 163 y = vF * std::sqrt(v1sq) * ( 1.0 + 0.2/v1sq ) / zi23 ; 147 164 148 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 165 // Slower than Fermi velocity 152 : 0.692308 * vF * (1.0 + 0.666666*v1sq + << 166 } else { >> 167 y = 0.692308 * vF * (1.0 + 0.666666*v1sq + v1sq*v1sq/15.0) / zi23 ; >> 168 } 153 169 154 G4double y3 = G4Exp(0.3*G4Log(y)); << 170 G4double q; >> 171 G4double y3 = std::pow(y, 0.3) ; 155 // G4cout<<"y= "<<y<<" y3= "<<y3<<" v1= "< 172 // G4cout<<"y= "<<y<<" y3= "<<y3<<" v1= "<<v1<<" vF= "<<vF<<G4endl; 156 G4double q = std::max(1.0 - G4Exp( 0.803*y << 173 q = 1.0 - G4Exp( 0.803*y3 - 1.3167*y3*y3 - 0.38157*y - 0.008983*y*y); 157 - 0.00898 << 174 q = std::max(q, minCharge/Zi); >> 175 >> 176 effCharge = q*charge; 158 177 159 // compute charge correction << 178 G4double tq = 7.6 - G4Log(reducedEnergy/keV); 160 G4double tq = 7.6 - G4Log(reducedEnergy/CL << 161 G4double tq2= tq*tq; 179 G4double tq2= tq*tq; 162 G4double sq = 1.0 + ( 0.18 + 0.0015 * z )* << 180 G4double sq = 1.0 + ( 0.18 + 0.0015 * z )*G4Exp(-tq2)/ (Zi*Zi); >> 181 163 // G4cout << "sq= " << sq << G4endl; 182 // G4cout << "sq= " << sq << G4endl; 164 183 165 // Screen length according to 184 // Screen length according to 166 // J.F.Ziegler and J.M.Manoyan, The stoppi 185 // J.F.Ziegler and J.M.Manoyan, The stopping of ions in compaunds, 167 // Nucl. Inst. & Meth. in Phys. Res. B35 ( 186 // Nucl. Inst. & Meth. in Phys. Res. B35 (1988) 215-228. 168 187 169 G4double lambda = 10.0 * vF *g4calc->A23(1 << 188 G4double lambda = 10.0 * vF *g4pow->A23(1.0 - q)/ (zi13 * (6.0 + q)); >> 189 170 G4double lambda2 = lambda*lambda; 190 G4double lambda2 = lambda*lambda; >> 191 171 G4double xx = (0.5/q - 0.5)*G4Log(1.0 + la 192 G4double xx = (0.5/q - 0.5)*G4Log(1.0 + lambda2)/vFsq; 172 193 173 effCharge *= q; << 174 chargeCorrection = sq * (1.0 + xx); 194 chargeCorrection = sq * (1.0 + xx); >> 195 175 } 196 } 176 // G4cout << "G4ionEffectiveCharge: charge= 197 // G4cout << "G4ionEffectiveCharge: charge= " << charge << " q= " << q 177 // << " chargeCor= " << chargeCorrec 198 // << " chargeCor= " << chargeCorrection 178 // << " e(MeV)= " << kineticEnergy 199 // << " e(MeV)= " << kineticEnergy/MeV << G4endl; 179 return effCharge; 200 return effCharge; 180 } 201 } 181 202 182 //....oooOO0OOooo........oooOO0OOooo........oo 203 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... >> 204 >> 205 183 206