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Geant4/processes/electromagnetic/dna/models/src/G4LEPTSDiffXS.cc

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Diff markup

Differences between /processes/electromagnetic/dna/models/src/G4LEPTSDiffXS.cc (Version 11.3.0) and /processes/electromagnetic/dna/models/src/G4LEPTSDiffXS.cc (Version 6.2.p2)


  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 // AMR Simplification /4                          
 27 // read Diff XSection & Interpolate               
 28                                                   
 29 #include "globals.hh"                             
 30 #include "Randomize.hh"                           
 31                                                   
 32 #include "CLHEP/Units/PhysicalConstants.h"        
 33                                                   
 34 #include "G4LEPTSDiffXS.hh"                       
 35 #include "G4Exp.hh"                               
 36                                                   
 37 G4LEPTSDiffXS::G4LEPTSDiffXS(const G4String& f    
 38   fileName = file;                                
 39                                                   
 40   readDXS();                                      
 41   BuildCDXS();                                    
 42   //BuildCDXS(1.0, 0.5);                          
 43   NormalizeCDXS();                                
 44   InterpolateCDXS();                              
 45 }                                                 
 46                                                   
 47                                                   
 48                                                   
 49 //DXS y KT                                        
 50 void G4LEPTSDiffXS::readDXS( ) {                  
 51                                                   
 52   FILE   *fp;                                     
 53   G4float data, data2;                            
 54                                                   
 55   if ((fp=fopen(fileName.c_str(), "r"))==nullp    
 56     //G4cout << "Error reading " << fileName <    
 57     NumEn = 0;                                    
 58     bFileFound = false;                           
 59     return;                                       
 60   }                                               
 61                                                   
 62   bFileFound = true;                              
 63                                                   
 64   //G4cout << "Reading2 " << fileName << G4end    
 65                                                   
 66   //NumAng = 181;                                 
 67   (void) fscanf(fp, "%d %d %s", &NumAng, &NumE    
 68   if( strcmp(DXSTypeName, "KTC") == 0 )     DX    
 69   else if( strcmp(DXSTypeName, "KT") == 0 ) DX    
 70   else                                  DXSTyp    
 71                                                   
 72   //  if( verboseLevel >= 1 ) G4cout << "Read     
 73   //       << "DXSType " << DXSTypeName << " "    
 74                                                   
 75   for (G4int eBin=1; eBin<=NumEn; eBin++){        
 76     (void) fscanf(fp,"%f ",&data);                
 77     Eb[eBin] = (G4double)data;                    
 78   }                                               
 79                                                   
 80                                                   
 81   //for (aBin=1;aBin<NumAng;aBin++){              
 82                                                   
 83   if(DXSType==1) {                                
 84     G4cout << "DXSTYpe 1" << G4endl;              
 85     for (G4int aBin=0;aBin<NumAng;aBin++){        
 86       (void) fscanf(fp,"%f ",&data);              
 87       DXS[0][aBin]=(G4double)data;                
 88       for (G4int eBin=1;eBin<=NumEn;eBin++){      
 89   (void) fscanf(fp,"%f %f ",&data2, &data);       
 90   DXS[eBin][aBin]=(G4double)data;                 
 91   KT[eBin][aBin]=(G4double)data2;                 
 92       }                                           
 93     }                                             
 94   }                                               
 95   else {                                          
 96     for(G4int aBin=0; aBin<NumAng; aBin++){       
 97       for(G4int eBin=0; eBin<=NumEn; eBin++){     
 98   (void) fscanf(fp,"%f ",&data);                  
 99   DXS[eBin][aBin] = (G4double)data;               
100       }                                           
101     }                                             
102     for(G4int aBin=0; aBin<NumAng; aBin++){       
103       for(G4int eBin=1; eBin<=NumEn; eBin++){     
104   G4double A = DXS[0][aBin];                      
105   G4double E = Eb[eBin];                          
106   G4double p = std::sqrt(std::pow( (E/27.2/137    
107   KT[eBin][aBin] = p *std::sqrt(2.-2.*std::cos    
108   //G4cout << "aEpKt " << aBin << " " << A <<     
109   //   << KT[eBin][aBin] << " DXS " << DXS[eBi    
110       }                                           
111     }                                             
112   }                                               
113                                                   
114   fclose(fp);                                     
115 }                                                 
116                                                   
117                                                   
118                                                   
119 // CDXS from DXS                                  
120 void G4LEPTSDiffXS::BuildCDXS(G4double E, G4do    
121                                                   
122   for(G4int aBin=0;aBin<NumAng;aBin++) {          
123     for(G4int eBin=0;eBin<=NumEn;eBin++){         
124       CDXS[eBin][aBin]=0.0;                       
125     }                                             
126   }                                               
127                                                   
128   for(G4int aBin=0;aBin<NumAng;aBin++)            
129     CDXS[0][aBin] = DXS[0][aBin];                 
130                                                   
131   for (G4int eBin=1;eBin<=NumEn;eBin++){          
132     G4double sum=0.0;                             
133     for (G4int aBin=0;aBin<NumAng;aBin++){        
134       sum += std::pow(DXS[eBin][aBin], (1.0-El    
135       CDXS[eBin][aBin]=sum;                       
136     }                                             
137   }                                               
138 }                                                 
139                                                   
140                                                   
141                                                   
142 // CDXS from DXS                                  
143 void G4LEPTSDiffXS::BuildCDXS() {                 
144                                                   
145   BuildCDXS(1.0, 0.0); // El = 0                  
146 }                                                 
147                                                   
148                                                   
149                                                   
150 // CDXS & DXS                                     
151 void G4LEPTSDiffXS::NormalizeCDXS() {             
152                                                   
153   // Normalize:  1/area                           
154   for (G4int eBin=1; eBin<=NumEn; eBin++){        
155     G4double area = CDXS[eBin][NumAng-1];         
156     //G4cout << eBin << " area = " << area <<     
157                                                   
158     for (G4int aBin=0; aBin<NumAng; aBin++) {     
159       CDXS[eBin][aBin] /= area;                   
160       //DXS[eBin][aBin]  /= area;                 
161     }                                             
162   }                                               
163 }                                                 
164                                                   
165                                                   
166                                                   
167 //ICDXS from CDXS   & IKT from KT                 
168 void G4LEPTSDiffXS::InterpolateCDXS() {  // *1    
169                                                   
170   G4double eps = 1e-5;                            
171   G4int ia = 0;                                   
172                                                   
173   for( G4int aBin=0; aBin<NumAng-1; aBin++) {     
174     G4double x1 = CDXS[0][aBin] + eps;            
175     G4double x2 = CDXS[0][aBin+1] + eps;          
176     G4double dx = (x2-x1)/100;                    
177                                                   
178     //if( x1<10 || x1) dx = (x2-x1)/100;          
179                                                   
180     for( G4double x=x1; x < (x2-dx/10); x += d    
181       for( G4int eBin=0; eBin<=NumEn; eBin++)     
182   G4double y1 = CDXS[eBin][aBin];                 
183   G4double y2 = CDXS[eBin][aBin+1];               
184   G4double z1 = KT[eBin][aBin];                   
185   G4double z2 = KT[eBin][aBin+1];                 
186                                                   
187   if( aBin==0 ) {                                 
188     y1 /=100;                                     
189     z1 /=100;                                     
190   }                                               
191                                                   
192   if( eBin==0 ) {   //linear abscisa              
193     ICDXS[eBin][ia] = (y1*(x2-x) + y2*(x-x1))/    
194   }                                               
195   else {           //log-log ordenada             
196     ICDXS[eBin][ia] = G4Exp( (std::log(y1)*std    
197   }                                               
198                                                   
199   IKT[eBin][ia] = (z1*(x2-x) + z2*(x-x1))/(x2-    
200   //IKT[eBin][ia] = exp( (log(z1)*log(x2/x)+lo    
201       }                                           
202                                                   
203       ia++;                                       
204     }                                             
205                                                   
206   }                                               
207                                                   
208   INumAng = ia;                                   
209 }                                                 
210                                                   
211                                                   
212                                                   
213 // from ICDXS                                     
214 G4double G4LEPTSDiffXS::SampleAngle(G4double E    
215   G4int  ii,jj,kk=0, Ebin;                        
216                                                   
217   Ebin=1;                                         
218   for(ii=2; ii<=NumEn; ii++)                      
219     if(Energy >= Eb[ii])                          
220       Ebin=ii;                                    
221   if(Energy > Eb[NumEn]) Ebin=NumEn;              
222   else if(Energy > (Eb[Ebin]+Eb[Ebin+1])*0.5 )    
223                                                   
224   //G4cout << "SampleAngle E " << Energy << "     
225                                                   
226   ii=0;                                           
227   jj=INumAng-1;                                   
228   G4double rnd=G4UniformRand();                   
229                                                   
230   while ((jj-ii)>1){                              
231     kk=(ii+jj)/2;                                 
232     G4double dxs = ICDXS[Ebin][kk];               
233     if (dxs < rnd) ii=kk;                         
234     else           jj=kk;                         
235   }                                               
236                                                   
237                                                   
238   //G4double x = ICDXS[0][jj];                    
239   G4double x = ICDXS[0][kk] *CLHEP::twopi/360.    
240                                                   
241   return(x);                                      
242 }                                                 
243                                                   
244                                                   
245                                                   
246 G4double G4LEPTSDiffXS::SampleAngleEthylene(G4    
247                                                   
248   BuildCDXS(E, El);                               
249   NormalizeCDXS();                                
250   InterpolateCDXS();                              
251                                                   
252   return( SampleAngle(E) );                       
253 }                                                 
254                                                   
255                                                   
256                                                   
257 //Momentum Transfer formula                       
258 G4double G4LEPTSDiffXS::SampleAngleMT(G4double    
259   G4int  ii, jj, kk=0, Ebin, iMin, iMax;          
260                                                   
261   G4double Ei = Energy;                           
262   G4double Ed = Energy - Elost;                   
263   G4double Pi = std::sqrt( std::pow( (Ei/27.2/    
264   G4double Pd = std::sqrt( std::pow( (Ed/27.2/    
265   G4double Kmin = Pi - Pd;                        
266   G4double Kmax = Pi + Pd;                        
267                                                   
268   if(Pd <= 1e-9 ) return (0.0);                   
269                                                   
270                                                   
271   // locate Energy bin                            
272   Ebin=1;                                         
273   for(ii=2; ii<=NumEn; ii++)                      
274     if(Energy > Eb[ii]) Ebin=ii;                  
275   if(Energy > Eb[NumEn]) Ebin=NumEn;              
276   else if(Energy > (Eb[Ebin]+Eb[Ebin+1])*0.5 )    
277                                                   
278   //G4cout << "SampleAngle2 E " << Energy << "    
279                                                   
280   ii=0; jj=INumAng-1;                             
281   while ((jj-ii)>1) {                             
282     kk=(ii+jj)/2;                                 
283     if( IKT[Ebin][kk] < Kmin ) ii=kk;             
284     else                      jj=kk;              
285   }                                               
286   iMin = ii;                                      
287                                                   
288   ii=0; jj=INumAng-1;                             
289   while ((jj-ii)>1) {                             
290     kk=(ii+jj)/2;                                 
291     if( IKT[Ebin][kk] < Kmax ) ii=kk;             
292     else                      jj=kk;              
293   }                                               
294   iMax = ii;                                      
295                                                   
296                                                   
297   // r -> a + (b-a)*r = a*(1-r) + b*r             
298   G4double rnd = G4UniformRand();                 
299   rnd = (1-rnd)*ICDXS[Ebin][iMin] + rnd*ICDXS[    
300   //G4double rnd = (ICDXS[Ebin][iMax] - ICDXS[    
301   //  +  ICDXS[Ebin][iMin];                       
302                                                   
303   ii=0; jj=INumAng-1;                             
304   while ((jj-ii)>1){                              
305     kk=(ii+jj)/2;                                 
306     if( ICDXS[Ebin][kk] < rnd) ii=kk;             
307     else                      jj=kk;              
308   }                                               
309                                                   
310   //Sampled                                       
311   G4double KR = IKT[Ebin][kk];                    
312                                                   
313   G4double co = (Pi*Pi + Pd*Pd - KR*KR) / (2*P    
314   if(co > 1) co =1;                               
315   G4double x = std::acos(co); //*360/twopi;       
316                                                   
317   // Elastic aprox.                               
318   //x = 2*asin(KR/Pi/2)*360/twopi;                
319                                                   
320   return(x);                                      
321 }                                                 
322                                                   
323                                                   
324                                                   
325 void G4LEPTSDiffXS::PrintDXS(G4int NE) {          
326                                                   
327   G4double dxs;                                   
328                                                   
329   G4cout << G4endl<< "DXS & CDXS: " << fileNam    
330                                                   
331   for (G4int aBin=0; aBin<NumAng; aBin++) {       
332     if( aBin>0)                                   
333       dxs = (CDXS[NE][aBin] - CDXS[NE][aBin-1]    
334     else                                          
335       dxs = CDXS[NE][aBin];                       
336                                                   
337     G4cout << CDXS[0][aBin] << " " << dxs << "    
338   }                                               
339                                                   
340   G4cout << G4endl<< "IDXS & ICDXS: " << fileN    
341                                                   
342   for (G4int aBin=0; aBin<INumAng; aBin++) {      
343     if( aBin>0)                                   
344       dxs = (ICDXS[NE][aBin] - ICDXS[NE][aBin-    
345     else                                          
346       dxs = ICDXS[NE][aBin];                      
347                                                   
348     G4cout << ICDXS[0][aBin] << " " << dxs <<     
349   }                                               
350                                                   
351                                                   
352   // if(jmGlobals->VerboseHeaders) {              
353   //   G4cout << G4endl << "dxskt1" << G4endl;    
354   //   for (G4int aBin=0;aBin<NumAng;aBin++){     
355   //     G4cout << DXS[0][aBin] << "\t" << DXS    
356   //       << CDXS[1][aBin] << "\t" << KT[12][    
357   //   }                                          
358   // }                                            
359                                                   
360 }                                                 
361