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Geant4/processes/electromagnetic/polarisation/src/G4PolarizedComptonXS.cc

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Differences between /processes/electromagnetic/polarisation/src/G4PolarizedComptonXS.cc (Version 11.3.0) and /processes/electromagnetic/polarisation/src/G4PolarizedComptonXS.cc (Version 11.2)


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 25 //                                                 25 //
 26 // Geant4 Class file                               26 // Geant4 Class file
 27 //                                                 27 //
 28 // File name:     G4PolarizedComptonXS             28 // File name:     G4PolarizedComptonXS
 29 //                                                 29 //
 30 // Author:        Andreas Schaelicke               30 // Author:        Andreas Schaelicke
 31 //                                                 31 //
 32 // Class Description:                              32 // Class Description:
 33 //   determine the  polarization of the final      33 //   determine the  polarization of the final state in a Compton scattering
 34 //   process employing the differential cross      34 //   process employing the differential cross section by F.W.Lipps & H.A.Tolhoek
 35 //   ( Physica 20 (1954) 395 )                     35 //   ( Physica 20 (1954) 395 )
 36 //   recalculated by P.Starovoitov                 36 //   recalculated by P.Starovoitov
 37                                                    37 
 38 #include "G4PolarizedComptonXS.hh"                 38 #include "G4PolarizedComptonXS.hh"
 39                                                    39 
 40 //....oooOO0OOooo........oooOO0OOooo........oo     40 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
 41 G4PolarizedComptonXS::G4PolarizedComptonXS()       41 G4PolarizedComptonXS::G4PolarizedComptonXS()
 42 {                                                  42 {
 43   SetYmin(0.);                                     43   SetYmin(0.);
 44                                                    44 
 45   fPhi0  = 0.;                                     45   fPhi0  = 0.;
 46   fPolXS = 0.;                                     46   fPolXS = 0.;
 47   fUnpXS = 0.;                                     47   fUnpXS = 0.;
 48   fPhi2  = G4ThreeVector(0., 0., 0.);              48   fPhi2  = G4ThreeVector(0., 0., 0.);
 49   fPhi3  = G4ThreeVector(0., 0., 0.);              49   fPhi3  = G4ThreeVector(0., 0., 0.);
 50   polxx = polyy = polzz = polxz = polzx = poly     50   polxx = polyy = polzz = polxz = polzx = polyz = polzy = polxy = polyx = 0.;
 51 }                                                  51 }
 52                                                    52 
 53 //....oooOO0OOooo........oooOO0OOooo........oo     53 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
 54 G4PolarizedComptonXS::~G4PolarizedComptonXS()      54 G4PolarizedComptonXS::~G4PolarizedComptonXS() {}
 55                                                    55 
 56 //....oooOO0OOooo........oooOO0OOooo........oo     56 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
 57 void G4PolarizedComptonXS::Initialize(G4double     57 void G4PolarizedComptonXS::Initialize(G4double eps, G4double X,
 58                                       G4double     58                                       G4double,  // phi
 59                                       const G4     59                                       const G4StokesVector& pol0,
 60                                       const G4     60                                       const G4StokesVector& pol1, G4int flag)
 61 {                                                  61 {
 62   G4double cosT = 1. - (1. / eps - 1.) / X;        62   G4double cosT = 1. - (1. / eps - 1.) / X;
 63   if(cosT > 1. + 1.e-8)                            63   if(cosT > 1. + 1.e-8)
 64     cosT = 1.;                                     64     cosT = 1.;
 65   else if(cosT < -1. - 1.e-8)                      65   else if(cosT < -1. - 1.e-8)
 66     cosT = -1.;                                    66     cosT = -1.;
 67   G4double cosT2 = cosT * cosT;                    67   G4double cosT2 = cosT * cosT;
 68   G4double cosT3 = cosT2 * cosT;                   68   G4double cosT3 = cosT2 * cosT;
 69   G4double sinT2 = 1. - cosT2;                     69   G4double sinT2 = 1. - cosT2;
 70   if(sinT2 > 1. + 1.e-8)                           70   if(sinT2 > 1. + 1.e-8)
 71     sinT2 = 1.;                                    71     sinT2 = 1.;
 72   else if(sinT2 < 0.)                              72   else if(sinT2 < 0.)
 73     sinT2 = 0.;                                    73     sinT2 = 0.;
 74   G4double sinT  = std::sqrt(sinT2);               74   G4double sinT  = std::sqrt(sinT2);
 75   G4double cos2T = 2. * cosT2 - 1.;                75   G4double cos2T = 2. * cosT2 - 1.;
 76   G4double sin2T = 2. * sinT * cosT;               76   G4double sin2T = 2. * sinT * cosT;
 77   G4double eps2  = sqr(eps);                       77   G4double eps2  = sqr(eps);
 78   DefineCoefficients(pol0, pol1);                  78   DefineCoefficients(pol0, pol1);
 79   G4double diffXSFactor = re2 / (4. * X);          79   G4double diffXSFactor = re2 / (4. * X);
 80                                                    80 
 81   // unpolarized Cross Section                     81   // unpolarized Cross Section
 82   fUnpXS = (eps2 + 1. - eps * sinT2) / (2. * e     82   fUnpXS = (eps2 + 1. - eps * sinT2) / (2. * eps);
 83   // initial polarization dependence               83   // initial polarization dependence
 84   fPolXS = -sinT2 * pol0.x() + (1. - eps) * si     84   fPolXS = -sinT2 * pol0.x() + (1. - eps) * sinT * polzx +
 85            ((eps2 - 1.) / eps) * cosT * polzz;     85            ((eps2 - 1.) / eps) * cosT * polzz;
 86   fPolXS *= 0.5;                                   86   fPolXS *= 0.5;
 87                                                    87 
 88   fPhi0 = fUnpXS + fPolXS;                         88   fPhi0 = fUnpXS + fPolXS;
 89                                                    89 
 90   if(flag == 2)                                    90   if(flag == 2)
 91   {                                                91   {
 92     // polarization of outgoing photon             92     // polarization of outgoing photon
 93     G4double phi21 = -sinT2 + 0.5 * (cos2T + 3     93     G4double phi21 = -sinT2 + 0.5 * (cos2T + 3.) * pol0.x() -
 94                      ((1. - eps) / eps) * sinT     94                      ((1. - eps) / eps) * sinT * polzx;
 95     phi21 *= 0.5;                                  95     phi21 *= 0.5;
 96     G4double phi22 = cosT * pol0.y() + ((1. -      96     G4double phi22 = cosT * pol0.y() + ((1. - eps) / (2. * eps)) * sinT * polzy;
 97     G4double phi23 = ((eps2 + 1.) / eps) * cos     97     G4double phi23 = ((eps2 + 1.) / eps) * cosT * pol0.z() -
 98                      ((1. - eps) / eps) * (eps     98                      ((1. - eps) / eps) * (eps * cosT2 + 1.) * pol1.z();
 99     phi23 += 0.5 * (1. - eps) * sin2T * pol1.x     99     phi23 += 0.5 * (1. - eps) * sin2T * pol1.x();
100     phi23 += (eps - 1.) * (-sinT2 * polxz + si    100     phi23 += (eps - 1.) * (-sinT2 * polxz + sinT * polyy - 0.5 * sin2T * polxx);
101     phi23 *= 0.5;                                 101     phi23 *= 0.5;
102                                                   102 
103     fPhi2 = G4ThreeVector(phi21, phi22, phi23)    103     fPhi2 = G4ThreeVector(phi21, phi22, phi23);
104                                                   104 
105     // polarization of outgoing electron          105     // polarization of outgoing electron
106     G4double phi32 = -sinT2 * polxy + ((1. - e    106     G4double phi32 = -sinT2 * polxy + ((1. - eps) / eps) * sinT * polyz +
107                      0.5 * (cos2T + 3.) * pol1    107                      0.5 * (cos2T + 3.) * pol1.y();
108     phi32 *= 0.5;                                 108     phi32 *= 0.5;
109                                                   109 
110     G4double phi31    = 0.;                       110     G4double phi31    = 0.;
111     G4double phi31add = 0.;                       111     G4double phi31add = 0.;
112     G4double phi33    = 0.;                       112     G4double phi33    = 0.;
113     G4double phi33add = 0.;                       113     G4double phi33add = 0.;
114                                                   114 
115     if((1. - eps) > 1.e-12)                       115     if((1. - eps) > 1.e-12)
116     {                                             116     {
117       G4double helpVar = std::sqrt(eps2 - 2. *    117       G4double helpVar = std::sqrt(eps2 - 2. * cosT * eps + 1.);
118                                                   118 
119       phi31 = (1. - eps) * (1. + cosT) * sinT     119       phi31 = (1. - eps) * (1. + cosT) * sinT * pol0.z();
120       phi31 +=                                    120       phi31 +=
121         (-eps * cosT3 + eps * cosT2 + (eps - 2    121         (-eps * cosT3 + eps * cosT2 + (eps - 2.) * cosT + eps) * pol1.x();
122       phi31 += -(eps * cosT2 - eps * cosT + co    122       phi31 += -(eps * cosT2 - eps * cosT + cosT + 1.) * sinT * pol1.z();
123       phi31 /= 2. * helpVar;                      123       phi31 /= 2. * helpVar;
124                                                   124 
125       phi31add = -eps * sqr(1. - cosT) * (1. +    125       phi31add = -eps * sqr(1. - cosT) * (1. + cosT) * polxx;
126       phi31add += (1. - eps) * sinT2 * polyy;     126       phi31add += (1. - eps) * sinT2 * polyy;
127       phi31add += -(-eps2 + cosT * (cosT * eps    127       phi31add += -(-eps2 + cosT * (cosT * eps - eps + 1.) * eps + eps - 1.) *
128                   sinT * polxz / eps;             128                   sinT * polxz / eps;
129       phi31add /= 2. * helpVar;                   129       phi31add /= 2. * helpVar;
130                                                   130 
131       phi33 = ((1. - eps) / eps) *                131       phi33 = ((1. - eps) / eps) *
132               (-eps * cosT2 + eps * (eps + 1.)    132               (-eps * cosT2 + eps * (eps + 1.) * cosT - 1.) * pol0.z();
133       phi33 += -(eps * cosT2 + (1. - eps) * ep    133       phi33 += -(eps * cosT2 + (1. - eps) * eps * cosT + 1.) * sinT * pol1.x();
134       phi33 +=                                    134       phi33 +=
135         -(-eps2 * cosT3 + eps * (eps2 - eps +     135         -(-eps2 * cosT3 + eps * (eps2 - eps + 1.) * cosT2 - cosT + eps2) *
136         pol1.z() / eps;                           136         pol1.z() / eps;
137       phi33 /= -2. * helpVar;                     137       phi33 /= -2. * helpVar;
138                                                   138 
139       phi33add = (eps * (eps - cosT - 1.) * co    139       phi33add = (eps * (eps - cosT - 1.) * cosT + 1.) * sinT * polxx;
140       phi33add += -(-eps2 + cosT * eps + eps -    140       phi33add += -(-eps2 + cosT * eps + eps - 1.) * sinT2 * polxz;
141       phi33add += (eps - 1.) * (cosT - eps) *     141       phi33add += (eps - 1.) * (cosT - eps) * sinT * polyy;
142       phi33add /= -2. * helpVar;                  142       phi33add /= -2. * helpVar;
143     }                                             143     }
144     else                                          144     else
145     {                                             145     {
146       phi31 = -pol1.z() -                         146       phi31 = -pol1.z() -
147               (X - 1.) * std::sqrt(1. - eps) *    147               (X - 1.) * std::sqrt(1. - eps) * pol1.x() / std::sqrt(2. * X);
148       phi31add = -(-X * X * pol1.z() - 2. * X     148       phi31add = -(-X * X * pol1.z() - 2. * X * (2. * pol0.z() - pol1.z()) -
149                    (4. * pol0.x() + 5.) * pol1    149                    (4. * pol0.x() + 5.) * pol1.z()) *
150                  (1. - eps) / (4. * X);           150                  (1. - eps) / (4. * X);
151                                                   151 
152       phi33 = pol1.x() -                          152       phi33 = pol1.x() -
153               (X - 1.) * std::sqrt(1. - eps) *    153               (X - 1.) * std::sqrt(1. - eps) * pol1.z() / std::sqrt(2. * X);
154       phi33add = -(X * X - 2. * X + 4. * pol0.    154       phi33add = -(X * X - 2. * X + 4. * pol0.x() + 5.) * (1. - eps) *
155                  pol1.x() / (4. * X);             155                  pol1.x() / (4. * X);
156     }                                             156     }
157     fPhi3 = G4ThreeVector(phi31 + phi31add, ph    157     fPhi3 = G4ThreeVector(phi31 + phi31add, phi32, phi33 + phi33add);
158   }                                               158   }
159   fUnpXS *= diffXSFactor;                         159   fUnpXS *= diffXSFactor;
160   fPolXS *= diffXSFactor;                         160   fPolXS *= diffXSFactor;
161   fPhi0 *= diffXSFactor;                          161   fPhi0 *= diffXSFactor;
162   fPhi2 *= diffXSFactor;                          162   fPhi2 *= diffXSFactor;
163   fPhi3 *= diffXSFactor;                          163   fPhi3 *= diffXSFactor;
164 }                                                 164 }
165                                                   165 
166 G4double G4PolarizedComptonXS::XSection(const     166 G4double G4PolarizedComptonXS::XSection(const G4StokesVector& pol2,
167                                         const     167                                         const G4StokesVector& pol3)
168 {                                                 168 {
169   G4bool gammaPol2    = !(pol2 == G4StokesVect    169   G4bool gammaPol2    = !(pol2 == G4StokesVector::ZERO);
170   G4bool electronPol3 = !(pol3 == G4StokesVect    170   G4bool electronPol3 = !(pol3 == G4StokesVector::ZERO);
171                                                   171 
172   G4double phi = 0.;                              172   G4double phi = 0.;
173   // polarization independent part                173   // polarization independent part
174   phi += fPhi0;                                   174   phi += fPhi0;
175                                                   175 
176   if(gammaPol2)                                   176   if(gammaPol2)
177   {                                               177   {
178     // part depending on the polarization of t    178     // part depending on the polarization of the final photon
179     phi += fPhi2 * pol2;                          179     phi += fPhi2 * pol2;
180   }                                               180   }
181                                                   181 
182   if(electronPol3)                                182   if(electronPol3)
183   {                                               183   {
184     // part depending on the polarization of t    184     // part depending on the polarization of the final electron
185     phi += fPhi3 * pol3;                          185     phi += fPhi3 * pol3;
186   }                                               186   }
187                                                   187 
188   // return cross section.                        188   // return cross section.
189   return phi;                                     189   return phi;
190 }                                                 190 }
191                                                   191 
192 //....oooOO0OOooo........oooOO0OOooo........oo    192 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
193 G4double G4PolarizedComptonXS::TotalXSection(G    193 G4double G4PolarizedComptonXS::TotalXSection(G4double /*xmin*/,
194                                              G    194                                              G4double /*xmax*/, G4double k0,
195                                              c    195                                              const G4StokesVector& pol0,
196                                              c    196                                              const G4StokesVector& pol1)
197 {                                                 197 {
198   G4double k1 = 1. + 2. * k0;                     198   G4double k1 = 1. + 2. * k0;
199                                                   199 
200   G4double unit = fZ * CLHEP::pi * CLHEP::clas    200   G4double unit = fZ * CLHEP::pi * CLHEP::classic_electr_radius *
201                   CLHEP::classic_electr_radius    201                   CLHEP::classic_electr_radius;
202                                                   202 
203   G4double pre = unit / (sqr(k0) * sqr(1. + 2.    203   G4double pre = unit / (sqr(k0) * sqr(1. + 2. * k0));
204                                                   204 
205   G4double xs_0 = ((k0 - 2.) * k0 - 2.) * sqr(    205   G4double xs_0 = ((k0 - 2.) * k0 - 2.) * sqr(k1) * std::log(k1) +
206                   2. * k0 * (k0 * (k0 + 1.) *     206                   2. * k0 * (k0 * (k0 + 1.) * (k0 + 8.) + 2.);
207   G4double xs_pol = (k0 + 1.) * sqr(k1) * std:    207   G4double xs_pol = (k0 + 1.) * sqr(k1) * std::log(k1) -
208                     2. * k0 * (5. * sqr(k0) +     208                     2. * k0 * (5. * sqr(k0) + 4. * k0 + 1.);
209                                                   209 
210   return pre * (xs_0 / k0 + pol0.p3() * pol1.z    210   return pre * (xs_0 / k0 + pol0.p3() * pol1.z() * xs_pol);
211 }                                                 211 }
212                                                   212 
213 //....oooOO0OOooo........oooOO0OOooo........oo    213 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
214 G4StokesVector G4PolarizedComptonXS::GetPol2()    214 G4StokesVector G4PolarizedComptonXS::GetPol2()
215 {                                                 215 {
216   // Note, mean polarization can not contain c    216   // Note, mean polarization can not contain correlation effects.
217   return G4StokesVector(1. / fPhi0 * fPhi2);      217   return G4StokesVector(1. / fPhi0 * fPhi2);
218 }                                                 218 }
219                                                   219 
220 //....oooOO0OOooo........oooOO0OOooo........oo    220 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
221 G4StokesVector G4PolarizedComptonXS::GetPol3()    221 G4StokesVector G4PolarizedComptonXS::GetPol3()
222 {                                                 222 {
223   // Note, mean polarization can not contain c    223   // Note, mean polarization can not contain correlation effects.
224   return G4StokesVector(1. / fPhi0 * fPhi3);      224   return G4StokesVector(1. / fPhi0 * fPhi3);
225 }                                                 225 }
226                                                   226 
227 //....oooOO0OOooo........oooOO0OOooo........oo    227 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
228 void G4PolarizedComptonXS::DefineCoefficients(    228 void G4PolarizedComptonXS::DefineCoefficients(const G4StokesVector& pol0,
229                                                   229                                               const G4StokesVector& pol1)
230 {                                                 230 {
231   polxx = pol0.x() * pol1.x();                    231   polxx = pol0.x() * pol1.x();
232   polyy = pol0.y() * pol1.y();                    232   polyy = pol0.y() * pol1.y();
233   polzz = pol0.z() * pol1.z();                    233   polzz = pol0.z() * pol1.z();
234                                                   234 
235   polxz = pol0.x() * pol1.z();                    235   polxz = pol0.x() * pol1.z();
236   polzx = pol0.z() * pol1.x();                    236   polzx = pol0.z() * pol1.x();
237                                                   237 
238   polyz = pol0.y() * pol1.z();                    238   polyz = pol0.y() * pol1.z();
239   polzy = pol0.z() * pol1.y();                    239   polzy = pol0.z() * pol1.y();
240                                                   240 
241   polxy = pol0.x() * pol1.y();                    241   polxy = pol0.x() * pol1.y();
242   polyx = pol0.y() * pol1.x();                    242   polyx = pol0.y() * pol1.x();
243 }                                                 243 }
244                                                   244