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Geant4/processes/electromagnetic/xrays/src/G4TransparentRegXTRadiator.cc

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Diff markup

Differences between /processes/electromagnetic/xrays/src/G4TransparentRegXTRadiator.cc (Version 11.3.0) and /processes/electromagnetic/xrays/src/G4TransparentRegXTRadiator.cc (Version 6.2)


  1 //                                                  1 
  2 // *******************************************    
  3 // * License and Disclaimer                       
  4 // *                                              
  5 // * The  Geant4 software  is  copyright of th    
  6 // * the Geant4 Collaboration.  It is provided    
  7 // * conditions of the Geant4 Software License    
  8 // * LICENSE and available at  http://cern.ch/    
  9 // * include a list of copyright holders.         
 10 // *                                              
 11 // * Neither the authors of this software syst    
 12 // * institutes,nor the agencies providing fin    
 13 // * work  make  any representation or  warran    
 14 // * regarding  this  software system or assum    
 15 // * use.  Please see the license in the file     
 16 // * for the full disclaimer and the limitatio    
 17 // *                                              
 18 // * This  code  implementation is the result     
 19 // * technical work of the GEANT4 collaboratio    
 20 // * By using,  copying,  modifying or  distri    
 21 // * any work based  on the software)  you  ag    
 22 // * use  in  resulting  scientific  publicati    
 23 // * acceptance of all terms of the Geant4 Sof    
 24 // *******************************************    
 25 //                                                
 26                                                   
 27 #include "G4TransparentRegXTRadiator.hh"          
 28                                                   
 29 #include "G4PhysicalConstants.hh"                 
 30                                                   
 31 //////////////////////////////////////////////    
 32 // Constructor, destructor                        
 33 G4TransparentRegXTRadiator::G4TransparentRegXT    
 34   G4LogicalVolume* anEnvelope, G4Material* foi    
 35   G4double a, G4double b, G4int n, const G4Str    
 36   : G4VXTRenergyLoss(anEnvelope, foilMat, gasM    
 37 {                                                 
 38   if(verboseLevel > 0)                            
 39     G4cout << "Regular transparent X-ray TR  r    
 40            << G4endl;                             
 41                                                   
 42   // Build energy and angular integral spectra    
 43   // a radiator                                   
 44                                                   
 45   fAlphaPlate = 10000;                            
 46   fAlphaGas   = 1000;                             
 47 }                                                 
 48                                                   
 49 //////////////////////////////////////////////    
 50 G4TransparentRegXTRadiator::~G4TransparentRegX    
 51                                                   
 52 //////////////////////////////////////////////    
 53 void G4TransparentRegXTRadiator::ProcessDescri    
 54 {                                                 
 55   out << "Simulation of forward X-ray transiti    
 56          "relativistic charged particles cross    
 57          "two materials.\n";                      
 58 }                                                 
 59                                                   
 60 //////////////////////////////////////////////    
 61 G4double G4TransparentRegXTRadiator::SpectralX    
 62 {                                                 
 63   G4double result, sum = 0., tmp, cof1, cof2,     
 64   G4int k, kMax, kMin;                            
 65                                                   
 66   cofPHC = 4. * pi * hbarc;                       
 67   tmp    = (fSigma1 - fSigma2) / cofPHC / ener    
 68   cof1   = fPlateThick * tmp;                     
 69   cof2   = fGasThick * tmp;                       
 70                                                   
 71   cofMin = energy * (fPlateThick + fGasThick)     
 72   cofMin += (fPlateThick * fSigma1 + fGasThick    
 73   cofMin /= cofPHC;                               
 74                                                   
 75   theta2 = cofPHC / (energy * (fPlateThick + f    
 76                                                   
 77   kMin = G4int(cofMin);                           
 78   if(cofMin > kMin)                               
 79     kMin++;                                       
 80                                                   
 81   kMax = kMin + 49;                               
 82                                                   
 83   if(verboseLevel > 2)                            
 84   {                                               
 85     G4cout << cof1 << "     " << cof2 << "        
 86     G4cout << "kMin = " << kMin << ";    kMax     
 87   }                                               
 88   for(k = kMin; k <= kMax; ++k)                   
 89   {                                               
 90     tmp    = pi * fPlateThick * (k + cof2) / (    
 91     result = (k - cof1) * (k - cof1) * (k + co    
 92     if(k == kMin && kMin == G4int(cofMin))        
 93     {                                             
 94       sum +=                                      
 95         0.5 * std::sin(tmp) * std::sin(tmp) *     
 96     }                                             
 97     else                                          
 98     {                                             
 99       sum += std::sin(tmp) * std::sin(tmp) * s    
100     }                                             
101     theta2k = std::sqrt(theta2 * std::abs(k -     
102                                                   
103     if(verboseLevel > 2)                          
104     {                                             
105       G4cout << k << "   " << theta2k << "        
106              << std::sin(tmp) * std::sin(tmp)     
107              << "      " << sum << G4endl;        
108     }                                             
109   }                                               
110   result = 4. * (cof1 + cof2) * (cof1 + cof2)     
111   result *= fPlateNumber;                         
112                                                   
113   return result;                                  
114 }                                                 
115                                                   
116 //////////////////////////////////////////////    
117 // Approximation for radiator interference fac    
118 // fully Regular radiator. The plate and gas g    
119 // The mean values of the plate and gas gap th    
120 // are supposed to be about XTR formation zone    
121 // mean absorption length of XTR photons in co    
122 G4double G4TransparentRegXTRadiator::GetStackF    
123                                                   
124                                                   
125 {                                                 
126   G4double result, Qa, Qb, Q, aZa, bZb, aMa, b    
127                                                   
128   aZa   = fPlateThick / GetPlateFormationZone(    
129   bZb   = fGasThick / GetGasFormationZone(ener    
130   aMa   = fPlateThick * GetPlateLinearPhotoAbs    
131   bMb   = fGasThick * GetGasLinearPhotoAbs(ene    
132   sigma = aMa * fPlateThick + bMb * fGasThick;    
133   Qa    = std::exp(-0.5 * aMa);                   
134   Qb    = std::exp(-0.5 * bMb);                   
135   Q     = Qa * Qb;                                
136                                                   
137   G4complex Ha(Qa * std::cos(aZa), -Qa * std::    
138   G4complex Hb(Qb * std::cos(bZb), -Qb * std::    
139   G4complex H  = Ha * Hb;                         
140   G4complex Hs = conj(H);                         
141   D            = 1.0 / ((1 - Q) * (1 - Q) +       
142              4 * Q * std::sin(0.5 * (aZa + bZb    
143   G4complex F1 =                                  
144     (1.0 - Ha) * (1.0 - Hb) * (1.0 - Hs) * G4d    
145   G4complex F2 = (1.0 - Ha) * (1.0 - Ha) * Hb     
146                  (1.0 - std::exp(-0.5 * fPlate    
147   G4complex R = (F1 + F2) * OneInterfaceXTRdEd    
148   result      = 2.0 * std::real(R);               
149   return result;                                  
150 }                                                 
151