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Geant4/processes/electromagnetic/xrays/src/G4StrawTubeXTRadiator.cc

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Differences between /processes/electromagnetic/xrays/src/G4StrawTubeXTRadiator.cc (Version 11.3.0) and /processes/electromagnetic/xrays/src/G4StrawTubeXTRadiator.cc (Version 10.0.p3)


  1 //                                                  1 //
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 19 // * technical work of the GEANT4 collaboratio     19 // * technical work of the GEANT4 collaboration.                      *
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 24 // *******************************************     24 // ********************************************************************
 25 //                                                 25 //
                                                   >>  26 //
                                                   >>  27 // $Id: G4StrawTubeXTRadiator.cc 68037 2013-03-13 14:15:08Z gcosmo $
                                                   >>  28 //
 26                                                    29 
 27 #include "G4StrawTubeXTRadiator.hh"                30 #include "G4StrawTubeXTRadiator.hh"
 28                                                << 
 29 #include "G4Gamma.hh"                          << 
 30 #include "G4PhysicalConstants.hh"                  31 #include "G4PhysicalConstants.hh"
 31 #include "G4SystemOfUnits.hh"                      32 #include "G4SystemOfUnits.hh"
                                                   >>  33 #include "Randomize.hh"
                                                   >>  34 #include "G4Gamma.hh"
 32                                                    35 
 33 //////////////////////////////////////////////     36 ////////////////////////////////////////////////////////////////////////////
                                                   >>  37 //
 34 // Constructor, destructor                         38 // Constructor, destructor
 35 G4StrawTubeXTRadiator::G4StrawTubeXTRadiator(G <<  39 
 36                                              G <<  40 G4StrawTubeXTRadiator::G4StrawTubeXTRadiator(G4LogicalVolume *anEnvelope,
 37                                              G <<  41            G4Material* foilMat,G4Material* gasMat, 
 38                                              G <<  42                                          G4double a, G4double b, G4Material* mediumMat,
 39                                              G <<  43                                          G4bool unishut,
 40                                              c <<  44                                          const G4String& processName) :
 41   : G4VXTRenergyLoss(anEnvelope, foilMat, gasM <<  45   G4VXTRenergyLoss(anEnvelope,foilMat,gasMat,a,b,1,processName)
 42 {                                                  46 {
 43   if(verboseLevel > 0)                             47   if(verboseLevel > 0)
 44     G4cout << "Straw tube X-ray TR  radiator E <<  48     G4cout<<"Straw tube X-ray TR  radiator EM process is called"<<G4endl;
 45                                                    49 
 46   if(unishut)                                  <<  50   if( unishut )
 47   {                                                51   {
 48     fAlphaPlate = 1. / 3.;                     <<  52     fAlphaPlate = 1./3.;
 49     fAlphaGas   = 12.4;                            53     fAlphaGas   = 12.4;
 50     if(verboseLevel > 0)                           54     if(verboseLevel > 0)
 51       G4cout << "straw uniform shooting: "     <<  55       G4cout<<"straw uniform shooting: "<<"fAlphaPlate = "
 52              << "fAlphaPlate = " << fAlphaPlat <<  56       <<fAlphaPlate<<" ; fAlphaGas = "<<fAlphaGas<<G4endl;
 53              << " ; fAlphaGas = " << fAlphaGas <<  57 
 54   }                                                58   }
 55   else                                             59   else
 56   {                                                60   {
 57     fAlphaPlate = 0.5;                             61     fAlphaPlate = 0.5;
 58     fAlphaGas   = 5.;                              62     fAlphaGas   = 5.;
 59     if(verboseLevel > 0)                           63     if(verboseLevel > 0)
 60       G4cout << "straw isotropical shooting: " <<  64       G4cout<<"straw isotropical shooting: "<<"fAlphaPlate = "
 61              << "fAlphaPlate = " << fAlphaPlat <<  65       <<fAlphaPlate<<" ; fAlphaGas = "<<fAlphaGas<<G4endl;
 62              << " ; fAlphaGas = " << fAlphaGas << 
 63   }                                            << 
 64                                                    66 
                                                   >>  67 
                                                   >>  68   }
 65   // index of medium material                      69   // index of medium material
 66   fMatIndex3 = (G4int)mediumMat->GetIndex();   <<  70 
                                                   >>  71   fMatIndex3 = mediumMat->GetIndex();
 67   if(verboseLevel > 0)                             72   if(verboseLevel > 0)
 68     G4cout << "medium material = " << mediumMa <<  73     G4cout<<"medium material = "<<mediumMat->GetName()<<G4endl;
 69                                                    74 
 70   // plasma energy squared for plate material      75   // plasma energy squared for plate material
 71   fSigma3 = fPlasmaCof * mediumMat->GetElectro <<  76 
                                                   >>  77   fSigma3 = fPlasmaCof*mediumMat->GetElectronDensity();
 72   if(verboseLevel > 0)                             78   if(verboseLevel > 0)
 73     G4cout << "medium plasma energy = " << std <<  79     G4cout<<"medium plasma energy = "<<std::sqrt(fSigma3)/eV<<" eV"<<G4endl;
 74            << G4endl;                          << 
 75                                                    80 
 76   // Compute cofs for preparation of linear ph     81   // Compute cofs for preparation of linear photo absorption in external medium
                                                   >>  82 
 77   ComputeMediumPhotoAbsCof();                      83   ComputeMediumPhotoAbsCof();
                                                   >>  84 
                                                   >>  85   // Build energy and angular integral spectra of X-ray TR photons from
                                                   >>  86   // a radiator
                                                   >>  87 
                                                   >>  88   // BuildTable();
 78 }                                                  89 }
 79                                                    90 
 80 //////////////////////////////////////////////     91 ///////////////////////////////////////////////////////////////////////////
 81 G4StrawTubeXTRadiator::~G4StrawTubeXTRadiator( << 
 82                                                    92 
 83 void G4StrawTubeXTRadiator::ProcessDescription <<  93 G4StrawTubeXTRadiator::~G4StrawTubeXTRadiator()
 84 {                                                  94 {
 85   out << "Simulation of forward X-ray transiti << 
 86          "a straw tube radiator.\n";           << 
 87 }                                                  95 }
 88                                                    96 
 89 //////////////////////////////////////////////     97 ///////////////////////////////////////////////////////////////////////////
                                                   >>  98 //
 90 // Approximation for radiator interference fac     99 // Approximation for radiator interference factor for the case of
 91 // straw tube radiator. The plate (window, str << 100 // straw tube radiator. The plate (window, straw wall) and gas (inside straw) 
 92 // gap thicknesses are gamma distributed.      << 101 // gap thicknesses are  gamma distributed.
 93 // The mean values of the plate and gas gap th << 102 // The mean values of the plate and gas gap thicknesses 
 94 // are supposed to be about XTR formation zone    103 // are supposed to be about XTR formation zone.
 95 G4double G4StrawTubeXTRadiator::GetStackFactor << 104 
 96                                                << 105 G4double 
                                                   >> 106 G4StrawTubeXTRadiator::GetStackFactor( G4double energy, 
                                                   >> 107                                          G4double gamma, G4double varAngle )
 97 {                                                 108 {
 98   G4double result, L2, L3, M2, M3;             << 
 99                                                   109 
100   L2 = GetPlateFormationZone(energy, gamma, va << 110 
101   L3 = GetGasFormationZone(energy, gamma, varA << 111   G4double result, L2, L3, M2, M3;
                                                   >> 112   
                                                   >> 113   L2 = GetPlateFormationZone(energy,gamma,varAngle);
                                                   >> 114   L3 = GetGasFormationZone(energy,gamma,varAngle);
102                                                   115 
103   M2 = GetPlateLinearPhotoAbs(energy);            116   M2 = GetPlateLinearPhotoAbs(energy);
104   M3 = GetGasLinearPhotoAbs(energy);              117   M3 = GetGasLinearPhotoAbs(energy);
105                                                   118 
106   G4complex C2(1.0 + 0.5 * fPlateThick * M2 /  << 119   G4complex C2(1.0 + 0.5*fPlateThick*M2/fAlphaPlate, fPlateThick/L2/fAlphaPlate); 
107                fPlateThick / L2 / fAlphaPlate) << 120   G4complex C3(1.0 + 0.5*fGasThick*M3/fAlphaGas, fGasThick/L3/fAlphaGas); 
108   G4complex C3(1.0 + 0.5 * fGasThick * M3 / fA << 121 
109                fGasThick / L3 / fAlphaGas);    << 122   G4complex H2 = std::pow(C2,-fAlphaPlate);  
110                                                << 123   G4complex H3 = std::pow(C3,-fAlphaGas);
111   G4complex H2 = std::pow(C2, -fAlphaPlate);   << 124   G4complex H  = H2*H3;
112   G4complex H3 = std::pow(C3, -fAlphaGas);     << 125 
113   G4complex H  = H2 * H3;                      << 126   G4complex Z1 = GetMediumComplexFZ(energy,gamma,varAngle);
114                                                << 127   G4complex Z2 = GetPlateComplexFZ(energy,gamma,varAngle);
115   G4complex Z1 = GetMediumComplexFZ(energy, ga << 128   G4complex Z3 = GetGasComplexFZ(energy,gamma,varAngle);
116   G4complex Z2 = GetPlateComplexFZ(energy, gam << 129 
117   G4complex Z3 = GetGasComplexFZ(energy, gamma << 130 
118                                                << 131   G4complex R  =    ( Z1 - Z2 )*( Z1 - Z2 )*( 1. - H2*H ) +
119   G4complex R = (Z1 - Z2) * (Z1 - Z2) * (1. -  << 132                     ( Z2 - Z3 )*( Z2 - Z3 )*( 1. - H3 )   + 
120                 (Z2 - Z3) * (Z2 - Z3) * (1. -  << 133                  2.*( Z1 - Z2 )*( Z2 - Z3 )*H2*( 1. - H3 ) ;
121                 2. * (Z1 - Z2) * (Z2 - Z3) * H << 
122                                                   134 
123   result = 2.0 * std::real(R) * (varAngle * en << 135   result       = 2.0*std::real(R)*(varAngle*energy/hbarc/hbarc);
                                                   >> 136   
                                                   >> 137   return      result;
124                                                   138 
125   return result;                               << 
126 }                                                 139 }
127                                                   140 
128 ////////////////////////////////////////////// << 141 
                                                   >> 142 //////////////////////////////////////////////////////////////////////
                                                   >> 143 //////////////////////////////////////////////////////////////////////
                                                   >> 144 //////////////////////////////////////////////////////////////////////
                                                   >> 145 //
129 // Calculates formation zone for external medi    146 // Calculates formation zone for external medium. Omega is energy !!!
130 G4double G4StrawTubeXTRadiator::GetMediumForma << 147 
131                                                << 148 G4double G4StrawTubeXTRadiator::GetMediumFormationZone( G4double omega ,
132                                                << 149                                                 G4double gamma ,
                                                   >> 150                                                 G4double varAngle    ) 
133 {                                                 151 {
134   G4double cof, lambda;                           152   G4double cof, lambda;
135   lambda = 1.0 / gamma / gamma + varAngle + fS << 153   lambda = 1.0/gamma/gamma + varAngle + fSigma3/omega/omega;
136   cof    = 2.0 * hbarc / omega / lambda;       << 154   cof = 2.0*hbarc/omega/lambda ;
137   return cof;                                  << 155   return cof ;
138 }                                                 156 }
139                                                   157 
140 ////////////////////////////////////////////// << 158 //////////////////////////////////////////////////////////////////////
                                                   >> 159 //
141 // Calculates complex formation zone for exter    160 // Calculates complex formation zone for external medium. Omega is energy !!!
142 G4complex G4StrawTubeXTRadiator::GetMediumComp << 161 
143                                                << 162 G4complex G4StrawTubeXTRadiator::GetMediumComplexFZ( G4double omega ,
144                                                << 163                                              G4double gamma ,
                                                   >> 164                                              G4double varAngle    ) 
145 {                                                 165 {
146   G4double cof, length, delta, real_v, image_v << 166   G4double cof, length,delta, real_v, image_v;
147                                                   167 
148   length = 0.5 * GetMediumFormationZone(omega, << 168   length = 0.5*GetMediumFormationZone(omega,gamma,varAngle);
149   delta  = length * GetMediumLinearPhotoAbs(om << 169   delta  = length*GetMediumLinearPhotoAbs(omega);
150   cof    = 1.0 / (1.0 + delta * delta);        << 170   cof    = 1.0/(1.0 + delta*delta);
151                                                   171 
152   real_v  = length * cof;                      << 172   real_v   = length*cof;
153   image_v = real_v * delta;                    << 173   image_v  = real_v*delta;
154                                                   174 
155   G4complex zone(real_v, image_v);             << 175   G4complex zone(real_v,image_v); 
156   return zone;                                    176   return zone;
157 }                                                 177 }
158                                                   178 
159 //////////////////////////////////////////////    179 ////////////////////////////////////////////////////////////////////////
                                                   >> 180 //
160 // Computes matrix of Sandia photo absorption     181 // Computes matrix of Sandia photo absorption cross section coefficients for
161 // medium material                                182 // medium material
162 void G4StrawTubeXTRadiator::ComputeMediumPhoto << 183 
                                                   >> 184 void G4StrawTubeXTRadiator::ComputeMediumPhotoAbsCof() 
163 {                                                 185 {
164   const G4MaterialTable* theMaterialTable = G4    186   const G4MaterialTable* theMaterialTable = G4Material::GetMaterialTable();
165   const G4Material* mat                   = (* << 187   const G4Material* mat = (*theMaterialTable)[fMatIndex3];
166   fMediumPhotoAbsCof                      = ma << 188   fMediumPhotoAbsCof = mat->GetSandiaTable();
167 }                                                 189 }
168                                                   190 
169 //////////////////////////////////////////////    191 //////////////////////////////////////////////////////////////////////
170 // Returns the value of linear photo absorptio << 192 //
                                                   >> 193 // Returns the value of linear photo absorption coefficient (in reciprocal 
171 // length) for medium for given energy of X-ra    194 // length) for medium for given energy of X-ray photon omega
172 G4double G4StrawTubeXTRadiator::GetMediumLinea << 195 
                                                   >> 196 G4double G4StrawTubeXTRadiator::GetMediumLinearPhotoAbs(G4double omega) 
173 {                                                 197 {
174   G4double omega2, omega3, omega4;             << 198   G4double omega2, omega3, omega4; 
175                                                   199 
176   omega2 = omega * omega;                      << 200   omega2 = omega*omega;
177   omega3 = omega2 * omega;                     << 201   omega3 = omega2*omega;
178   omega4 = omega2 * omega2;                    << 202   omega4 = omega2*omega2;
179                                                   203 
180   const G4double* SandiaCof =                  << 204   const G4double* SandiaCof = fMediumPhotoAbsCof->GetSandiaCofForMaterial(omega);
181     fMediumPhotoAbsCof->GetSandiaCofForMateria << 
182                                                   205 
183   G4double cross = SandiaCof[0] / omega + Sand << 206   G4double cross = SandiaCof[0]/omega  + SandiaCof[1]/omega2 +
184                    SandiaCof[2] / omega3 + San << 207                    SandiaCof[2]/omega3 + SandiaCof[3]/omega4;
185   return cross;                                   208   return cross;
186 }                                                 209 }
                                                   >> 210 
                                                   >> 211 //
                                                   >> 212 //
                                                   >> 213 ////////////////////////////////////////////////////////////////////////////
                                                   >> 214 
                                                   >> 215 
                                                   >> 216 
                                                   >> 217 
                                                   >> 218 
                                                   >> 219 
                                                   >> 220 
                                                   >> 221 
187                                                   222