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Geant4/examples/extended/electromagnetic/TestEm10/src/Materials.cc

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Differences between /examples/extended/electromagnetic/TestEm10/src/Materials.cc (Version 11.3.0) and /examples/extended/electromagnetic/TestEm10/src/Materials.cc (Version 11.2.2)


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 26 //                                                 26 //
 27 /// \file electromagnetic/TestEm10/src/Materia     27 /// \file electromagnetic/TestEm10/src/Materials.cc
 28 /// \brief Implementation of the Materials cla     28 /// \brief Implementation of the Materials class
 29 //                                                 29 //
 30 //                                                 30 //
 31 //                                             <<  31 // 
 32 //      GEANT 4 class                          <<  32 //      GEANT 4 class 
 33 //                                                 33 //
 34 //      History: based on object model of          34 //      History: based on object model of
 35 //       Materials                                 35 //       Materials
 36 //     Originally Created in Test30 by Vladimi <<  36 //     Originally Created in Test30 by Vladimir Ivanchenko, 12 March 2002 
 37 //                                             <<  37 // 
 38 //    Modified for Test by V. Grichine, 29 Jan     38 //    Modified for Test by V. Grichine, 29 Jan 2006
 39 //    is filled with XTR related materials, pl     39 //    is filled with XTR related materials, plastics, gas mixtures, etc
 40                                                    40 
                                                   >>  41 
 41 #include "Materials.hh"                            42 #include "Materials.hh"
 42                                                    43 
                                                   >>  44 #include "G4UnitsTable.hh"
 43 #include "G4Material.hh"                           45 #include "G4Material.hh"
 44 #include "G4MaterialTable.hh"                      46 #include "G4MaterialTable.hh"
 45 #include "G4SystemOfUnits.hh"                      47 #include "G4SystemOfUnits.hh"
 46 #include "G4UnitsTable.hh"                     << 
 47                                                << 
 48 //....oooOO0OOooo........oooOO0OOooo........oo << 
 49                                                    48 
 50 Materials* Materials::fgInstance = 0;              49 Materials* Materials::fgInstance = 0;
 51                                                    50 
 52 //....oooOO0OOooo........oooOO0OOooo........oo << 
 53                                                << 
 54 Materials* Materials::GetInstance()                51 Materials* Materials::GetInstance()
 55 {                                                  52 {
 56   if (!fgInstance) {                           <<  53   if ( ! fgInstance ) {
 57     fgInstance = new Materials();                  54     fgInstance = new Materials();
 58   }                                                55   }
 59   return fgInstance;                               56   return fgInstance;
 60 }                                                  57 }
 61                                                    58 
 62 //....oooOO0OOooo........oooOO0OOooo........oo << 
 63                                                    59 
 64 Materials::Materials()                             60 Materials::Materials()
 65 {                                                  61 {
 66   fgInstance = this;                               62   fgInstance = this;
 67   Initialise();                                    63   Initialise();
 68 }                                                  64 }
 69                                                    65 
 70 //....oooOO0OOooo........oooOO0OOooo........oo <<  66 Materials::~Materials()
 71                                                <<  67 {}
 72 Materials::~Materials() {}                     << 
 73                                                << 
 74 //....oooOO0OOooo........oooOO0OOooo........oo << 
 75                                                    68 
 76 void Materials::Initialise()                       69 void Materials::Initialise()
 77 {                                                  70 {
 78   G4String name, symbol;                       <<  71   G4String name, symbol;                           
 79   G4double a, z;                               <<  72   G4double a, z;  
 80   G4double density, fractionmass;              <<  73   G4double density, fractionmass; 
 81   G4int nel, ncomponents;                          74   G4int nel, ncomponents;
 82                                                    75 
 83   // define Elements                               76   // define Elements
                                                   >>  77  
                                                   >>  78   a = 1.01*g/mole;
                                                   >>  79   G4Element* elH  = new G4Element(name="Hydrogen",symbol="H" , z= 1., a);
 84                                                    80 
 85   a = 1.01 * g / mole;                         <<  81   a = 6.94*g/mole;
 86   G4Element* elH = new G4Element(name = "Hydro <<  82   G4Element* elLi  = new G4Element(name="Lithium",symbol="Li" , z= 3., a);
 87                                                    83 
 88   a = 6.94 * g / mole;                         <<  84   a = 9.01*g/mole;
 89   G4Element* elLi = new G4Element(name = "Lith <<  85   G4Element* elBe  = new G4Element(name="Berillium",symbol="Be" , z= 4., a);
 90                                                    86 
 91   a = 9.01 * g / mole;                         <<  87   a = 12.01*g/mole;
 92   G4Element* elBe = new G4Element(name = "Beri <<  88   G4Element* elC = new G4Element(name="Carbon", symbol="C", z=6., a);
 93                                                    89 
 94   a = 12.01 * g / mole;                        <<  90   a = 14.01*g/mole;
 95   G4Element* elC = new G4Element(name = "Carbo <<  91   G4Element* elN  = new G4Element(name="Nitrogen",symbol="N" , z= 7., a);
 96                                                    92 
 97   a = 14.01 * g / mole;                        <<  93   a = 16.00*g/mole;
 98   G4Element* elN = new G4Element(name = "Nitro <<  94   G4Element* elO  = new G4Element(name="Oxygen"  ,symbol="O" , z= 8., a);
 99                                                    95 
100   a = 16.00 * g / mole;                        <<  96   a = 39.948*g/mole;
101   G4Element* elO = new G4Element(name = "Oxyge <<  97   G4Element* elAr = new G4Element(name="Argon", symbol="Ar", z=18., a);
102                                                << 
103   a = 39.948 * g / mole;                       << 
104   G4Element* elAr = new G4Element(name = "Argo << 
105                                                    98 
106   /*                                               99   /*
107   a = 131.29*g/mole;                              100   a = 131.29*g/mole;
108   G4Element* elXe = new G4Element(name="Xenon"    101   G4Element* elXe = new G4Element(name="Xenon", symbol="Xe", z=54., a);
109                                                   102 
110   a = 19.00*g/mole;                               103   a = 19.00*g/mole;
111   G4Element* elF  = new G4Element(name="Fluori    104   G4Element* elF  = new G4Element(name="Fluorine", symbol="F", z=9., a);
112   */                                              105   */
113                                                   106 
114   //////////////                                  107   //////////////
115   //                                              108   //
116   // Detector windows, electrodes                 109   // Detector windows, electrodes
117   // Al for electrodes                            110   // Al for electrodes
118                                                   111 
119   density = 2.700 * g / cm3;                   << 112   density = 2.700*g/cm3;
120   a = 26.98 * g / mole;                        << 113   a = 26.98*g/mole;
121   new G4Material(name = "Al", z = 13., a, dens << 114   new G4Material(name="Al", z=13., a, density);
                                                   >> 115 
122                                                   116 
123   /////////                                       117   /////////
124   //                                              118   //
125   // Materials for popular X-ray TR radiators     119   // Materials for popular X-ray TR radiators
126   //                                              120   //
127                                                   121 
128   // TRT_CH2                                      122   // TRT_CH2
129                                                   123 
130   density = 0.935 * g / cm3;                   << 124   density = 0.935*g/cm3;
131   G4Material* TRT_CH2 = new G4Material(name =  << 125   G4Material* TRT_CH2 = new G4Material(name="TRT_CH2",density, nel=2);
132   TRT_CH2->AddElement(elC, 1);                 << 126   TRT_CH2->AddElement(elC,1);
133   TRT_CH2->AddElement(elH, 2);                 << 127   TRT_CH2->AddElement(elH,2);
134                                                   128 
135   // Radiator                                     129   // Radiator
136                                                   130 
137   density = 0.059 * g / cm3;                   << 131   density = 0.059*g/cm3;
138   G4Material* Radiator = new G4Material(name = << 132   G4Material* Radiator = new G4Material(name="Radiator",density, nel=2);
139   Radiator->AddElement(elC, 1);                << 133   Radiator->AddElement(elC,1);
140   Radiator->AddElement(elH, 2);                << 134   Radiator->AddElement(elH,2);
141                                                   135 
142   // Carbon Fiber                                 136   // Carbon Fiber
143                                                   137 
144   density = 0.145 * g / cm3;                   << 138   density = 0.145*g/cm3;
145   G4Material* CarbonFiber = new G4Material(nam << 139   G4Material* CarbonFiber = new G4Material(name="CarbonFiber",density, nel=1);
146   CarbonFiber->AddElement(elC, 1);             << 140   CarbonFiber->AddElement(elC,1);
147                                                   141 
148   // Lithium                                      142   // Lithium
149                                                   143 
150   density = 0.534 * g / cm3;                   << 144   density = 0.534*g/cm3;
151   G4Material* Li = new G4Material(name = "Li", << 145   G4Material* Li = new G4Material(name="Li",density, nel=1);
152   Li->AddElement(elLi, 1);                     << 146   Li->AddElement(elLi,1);
153                                                   147 
154   // Beryllium                                    148   // Beryllium
155                                                   149 
156   density = 1.848 * g / cm3;                   << 150   density = 1.848*g/cm3;
157   G4Material* Be = new G4Material(name = "Be", << 151   G4Material* Be = new G4Material(name="Be",density, nel=1);
158   Be->AddElement(elBe, 1);                     << 152   Be->AddElement(elBe,1);
                                                   >> 153 
159                                                   154 
160   // Mylar                                        155   // Mylar
161                                                   156 
162   density = 1.39 * g / cm3;                    << 157   density = 1.39*g/cm3;
163   G4Material* Mylar = new G4Material(name = "M << 158   G4Material* Mylar = new G4Material(name="Mylar", density, nel=3);
164   Mylar->AddElement(elO, 2);                   << 159   Mylar->AddElement(elO,2);
165   Mylar->AddElement(elC, 5);                   << 160   Mylar->AddElement(elC,5);
166   Mylar->AddElement(elH, 4);                   << 161   Mylar->AddElement(elH,4);
167                                                   162 
168   // Kapton Dupont de Nemur (density: 1.396-1.    163   // Kapton Dupont de Nemur (density: 1.396-1.430, get middle )
169                                                   164 
170   density = 1.413 * g / cm3;                   << 165   density = 1.413*g/cm3;
171   G4Material* Kapton = new G4Material(name = " << 166   G4Material* Kapton = new G4Material(name="Kapton", density, nel=4);
172   Kapton->AddElement(elO, 5);                  << 167   Kapton->AddElement(elO,5);
173   Kapton->AddElement(elC, 22);                 << 168   Kapton->AddElement(elC,22);
174   Kapton->AddElement(elN, 2);                  << 169   Kapton->AddElement(elN,2);
175   Kapton->AddElement(elH, 10);                 << 170   Kapton->AddElement(elH,10);
176                                                   171 
177   // Kapton (polyimide) ??? since = Mylar C5H4    172   // Kapton (polyimide) ??? since = Mylar C5H4O2
178                                                   173 
179   // density = 1.39*g/cm3;                        174   // density = 1.39*g/cm3;
180   // G4Material* kapton = new G4Material(name=    175   // G4Material* kapton = new G4Material(name="kapton", density, nel=3);
181   // Kapton->AddElement(elO,2);                   176   // Kapton->AddElement(elO,2);
182   // Kapton->AddElement(elC,5);                   177   // Kapton->AddElement(elC,5);
183   // Kapton->AddElement(elH,4);                   178   // Kapton->AddElement(elH,4);
184                                                   179 
185   // Polypropelene                                180   // Polypropelene
186                                                   181 
187   G4Material* CH2 = new G4Material("CH2", 0.91 << 182   G4Material* CH2 = new G4Material ("CH2" , 0.91*g/cm3, 2);
188   CH2->AddElement(elH, 2);                     << 183   CH2->AddElement(elH,2);
189   CH2->AddElement(elC, 1);                     << 184   CH2->AddElement(elC,1);
190                                                   185 
191   ////////////////////////////                    186   ////////////////////////////
192   //                                              187   //
193   // Noble gases , STP conditions                 188   // Noble gases , STP conditions
194                                                   189 
195   // Helium as detector gas, STP                  190   // Helium as detector gas, STP
196                                                   191 
197   density = 0.178 * mg / cm3;                  << 192   density = 0.178*mg/cm3;
198   a = 4.0026 * g / mole;                       << 193   a = 4.0026*g/mole;
199   G4Material* He = new G4Material(name = "He", << 194   G4Material* He  = new G4Material(name="He",z=2., a, density );
200                                                   195 
201   // Neon as detector gas, STP                    196   // Neon as detector gas, STP
202                                                   197 
203   density = 0.900 * mg / cm3;                  << 198   density = 0.900*mg/cm3;
204   a = 20.179 * g / mole;                       << 199   a = 20.179*g/mole;
205   new G4Material(name = "Ne", z = 10., a, dens << 200   new G4Material(name="Ne",z=10., a, density );
206                                                   201 
207   // Argon as detector gas, STP                   202   // Argon as detector gas, STP
208                                                   203 
209   density = 1.7836 * mg / cm3;  // STP         << 204   density = 1.7836*mg/cm3;       // STP
210   G4Material* Argon = new G4Material(name = "A << 205   G4Material* Argon = new G4Material(name="Argon"  , density, ncomponents=1);
211   Argon->AddElement(elAr, 1);                     206   Argon->AddElement(elAr, 1);
212                                                   207 
213   // Krypton as detector gas, STP                 208   // Krypton as detector gas, STP
214                                                   209 
215   density = 3.700 * mg / cm3;                  << 210   density = 3.700*mg/cm3;
216   a = 83.80 * g / mole;                        << 211   a = 83.80*g/mole;
217   G4Material* Kr = new G4Material(name = "Kr", << 212   G4Material* Kr  = new G4Material(name="Kr",z=36., a, density );
218                                                   213 
219   // Xenon as detector gas, STP                   214   // Xenon as detector gas, STP
220                                                   215 
221   density = 5.858 * mg / cm3;                  << 216   density = 5.858*mg/cm3;
222   a = 131.29 * g / mole;                       << 217   a = 131.29*g/mole;
223   G4Material* Xe = new G4Material(name = "Xeno << 218   G4Material* Xe  = new G4Material(name="Xenon",z=54., a, density );
224                                                   219 
225   /////////////////////////////////            << 220 /////////////////////////////////
226   //                                           << 221 //
227   // Hydrocarbones, metane and others          << 222 // Hydrocarbones, metane and others
228                                                   223 
229   // Metane, STP                                  224   // Metane, STP
230                                                   225 
231   density = 0.7174 * mg / cm3;                 << 226   density = 0.7174*mg/cm3;
232   G4Material* metane = new G4Material(name = " << 227   G4Material* metane  = new G4Material(name="CH4",density,nel=2);
233   metane->AddElement(elC, 1);                  << 228   metane->AddElement(elC,1);
234   metane->AddElement(elH, 4);                  << 229   metane->AddElement(elH,4);
235                                                   230 
236   // Propane, STP                                 231   // Propane, STP
237                                                   232 
238   density = 2.005 * mg / cm3;                  << 233   density = 2.005*mg/cm3 ;
239   G4Material* propane = new G4Material(name =  << 234   G4Material* propane = new G4Material(name="C3H8",density,nel=2);
240   propane->AddElement(elC, 3);                 << 235   propane->AddElement(elC,3);
241   propane->AddElement(elH, 8);                 << 236   propane->AddElement(elH,8);
242                                                   237 
243   // iso-Butane (methylpropane), STP              238   // iso-Butane (methylpropane), STP
244                                                   239 
245   density = 2.67 * mg / cm3;                   << 240   density = 2.67*mg/cm3;
246   G4Material* isobutane = new G4Material(name  << 241   G4Material* isobutane = new G4Material(name="isoC4H10",density,nel=2);
247   isobutane->AddElement(elC, 4);               << 242   isobutane->AddElement(elC,4);
248   isobutane->AddElement(elH, 10);              << 243   isobutane->AddElement(elH,10);
249                                                   244 
250   /////////////////////////                       245   /////////////////////////
251   //                                              246   //
252   // Molecular gases                              247   // Molecular gases
253                                                   248 
254   // Carbon dioxide, STP                          249   // Carbon dioxide, STP
255                                                   250 
256   density = 1.977 * mg / cm3;                  << 251   density = 1.977*mg/cm3;
257   G4Material* CO2 =                            << 252   G4Material* CO2 = new G4Material(name="CO2", density, nel=2,
258     new G4Material(name = "CO2", density, nel  << 253                                        kStateGas,273.15*kelvin,1.*atmosphere);
259   CO2->AddElement(elC, 1);                     << 254   CO2->AddElement(elC,1);
260   CO2->AddElement(elO, 2);                     << 255   CO2->AddElement(elO,2);
261                                                   256 
262   // Carbon dioxide, STP                          257   // Carbon dioxide, STP
263                                                   258 
264   density = 1.977 * 273. * mg / cm3 / 293.;    << 259   density = 1.977*273.*mg/cm3/293.;
265   G4Material* CarbonDioxide = new G4Material(n << 260   G4Material* CarbonDioxide = new G4Material(name="CO2_2", density, nel=2);
266   CarbonDioxide->AddElement(elC, 1);           << 261   CarbonDioxide->AddElement(elC,1);
267   CarbonDioxide->AddElement(elO, 2);           << 262   CarbonDioxide->AddElement(elO,2);
268                                                   263 
269   // Nitrogen, STP                                264   // Nitrogen, STP
270                                                   265 
271   density = 1.25053 * mg / cm3;  // STP        << 266   density = 1.25053*mg/cm3;       // STP
272   G4Material* Nitrogen = new G4Material(name = << 267   G4Material* Nitrogen = new G4Material(name="N2"  , density, ncomponents=1);
273   Nitrogen->AddElement(elN, 2);                   268   Nitrogen->AddElement(elN, 2);
274                                                   269 
275   // Oxygen, STP                                  270   // Oxygen, STP
276                                                   271 
277   density = 1.4289 * mg / cm3;  // STP         << 272   density = 1.4289*mg/cm3;       // STP
278   G4Material* Oxygen = new G4Material(name = " << 273   G4Material* Oxygen = new G4Material(name="O2"  , density, ncomponents=1);
279   Oxygen->AddElement(elO, 2);                     274   Oxygen->AddElement(elO, 2);
280                                                   275 
281   /* *****************************                276   /* *****************************
282   density = 1.25053*mg/cm3;       // STP          277   density = 1.25053*mg/cm3;       // STP
283   a = 14.01*g/mole ;       // get atomic weigh    278   a = 14.01*g/mole ;       // get atomic weight !!!
284   //  a = 28.016*g/mole;                          279   //  a = 28.016*g/mole;
285   G4Material* N2  = new G4Material(name="Nitro    280   G4Material* N2  = new G4Material(name="Nitrogen", z= 7.,a,density) ;
286                                                   281 
287   density = 1.25053*mg/cm3;       // STP          282   density = 1.25053*mg/cm3;       // STP
288   G4Material* anotherN2 = new G4Material(name=    283   G4Material* anotherN2 = new G4Material(name="anotherN2", density,ncomponents=2);
289   anotherN2->AddElement(elN, 1);                  284   anotherN2->AddElement(elN, 1);
290   anotherN2->AddElement(elN, 1);                  285   anotherN2->AddElement(elN, 1);
291                                                   286 
292   // air made from oxigen and nitrogen only       287   // air made from oxigen and nitrogen only
293                                                   288 
294   density = 1.290*mg/cm3;  // old air from ele    289   density = 1.290*mg/cm3;  // old air from elements
295   G4Material* air = new G4Material(name="air"     290   G4Material* air = new G4Material(name="air"  , density, ncomponents=2);
296   air->AddElement(elN, fractionmass=0.7);         291   air->AddElement(elN, fractionmass=0.7);
297   air->AddElement(elO, fractionmass=0.3);         292   air->AddElement(elO, fractionmass=0.3);
298   ********************************************    293   ******************************************** */
299                                                   294 
300   // Dry Air (average composition with Ar), ST    295   // Dry Air (average composition with Ar), STP
301                                                   296 
302   density = 1.2928 * mg / cm3;  // STP         << 297   density = 1.2928*mg/cm3 ;       // STP
303   G4Material* Air = new G4Material(name = "Air << 298   G4Material* Air = new G4Material(name="Air"  , density, ncomponents=3);
304   Air->AddMaterial(Nitrogen, fractionmass = 0. << 299   Air->AddMaterial( Nitrogen, fractionmass = 0.7557 );
305   Air->AddMaterial(Oxygen, fractionmass = 0.23 << 300   Air->AddMaterial( Oxygen,   fractionmass = 0.2315 );
306   Air->AddMaterial(Argon, fractionmass = 0.012 << 301   Air->AddMaterial( Argon,    fractionmass = 0.0128 );
307                                                   302 
308   ////////////////////////////////////////////    303   ////////////////////////////////////////////////////////////////////////////
309   //                                              304   //
310   // MWPC mixtures                                305   // MWPC mixtures
311                                                   306 
312   // 85% Xe + 15% CO2, STP                        307   // 85% Xe + 15% CO2, STP
313                                                   308 
314   density = 4.9 * mg / cm3;                    << 309   density = 4.9*mg/cm3;
315   G4Material* Xe15CO2 = new G4Material(name =  << 310   G4Material* Xe15CO2 = new G4Material(name="Xe15CO2"  , density, ncomponents=2);
316   Xe15CO2->AddMaterial(Xe, fractionmass = 0.97 << 311   Xe15CO2->AddMaterial( Xe,              fractionmass = 0.979);
317   Xe15CO2->AddMaterial(CarbonDioxide, fraction << 312   Xe15CO2->AddMaterial( CarbonDioxide,   fractionmass = 0.021);
318                                                   313 
319   // 80% Xe + 20% CO2, STP                        314   // 80% Xe + 20% CO2, STP
320                                                   315 
321   density = 5.0818 * mg / cm3;                 << 316   density = 5.0818*mg/cm3;
322   G4Material* Xe20CO2 = new G4Material(name =  << 317   G4Material* Xe20CO2 = new G4Material(name="Xe20CO2"  , density, ncomponents=2);
323   Xe20CO2->AddMaterial(Xe, fractionmass = 0.92 << 318   Xe20CO2->AddMaterial( Xe,              fractionmass = 0.922 );
324   Xe20CO2->AddMaterial(CarbonDioxide, fraction << 319   Xe20CO2->AddMaterial( CarbonDioxide,   fractionmass = 0.078 );
325                                                   320 
326   // 70% Xe + 27% CO2 + 3% O2, 20 1 atm ATLAS     321   // 70% Xe + 27% CO2 + 3% O2, 20 1 atm ATLAS straw tube mixture
327                                                   322 
328   density = 4.358 * mg / cm3;                  << 323   density = 4.358*mg/cm3;
329   G4Material* Xe27CO23O2 = new G4Material(name << 324   G4Material* Xe27CO23O2 = new G4Material(name="Xe27CO23O2"  , density, ncomponents=3);
330   Xe27CO23O2->AddMaterial(Xe, fractionmass = 0 << 325   Xe27CO23O2->AddMaterial( Xe,            fractionmass = 0.87671);
331   Xe27CO23O2->AddMaterial(CarbonDioxide, fract << 326   Xe27CO23O2->AddMaterial( CarbonDioxide, fractionmass = 0.11412);
332   Xe27CO23O2->AddMaterial(Oxygen, fractionmass << 327   Xe27CO23O2->AddMaterial( Oxygen,        fractionmass = 0.00917);
333                                                   328 
334   // 80% Kr + 20% CO2, STP                        329   // 80% Kr + 20% CO2, STP
335                                                   330 
336   density = 3.601 * mg / cm3;                  << 331   density = 3.601*mg/cm3;
337   G4Material* Kr20CO2 = new G4Material(name =  << 332   G4Material* Kr20CO2 = new G4Material(name="Kr20CO2", density,
338   Kr20CO2->AddMaterial(Kr, fractionmass = 0.89 << 333                                        ncomponents=2);
339   Kr20CO2->AddMaterial(CarbonDioxide, fraction << 334   Kr20CO2->AddMaterial( Kr,              fractionmass = 0.89 );
                                                   >> 335   Kr20CO2->AddMaterial( CarbonDioxide,   fractionmass = 0.11 );
340                                                   336 
341   // Xe + 55% He + 15% CH4 ; NIM A294 (1990) 4    337   // Xe + 55% He + 15% CH4 ; NIM A294 (1990) 465-472; STP
342                                                   338 
343   density = 1.963 * 273. * mg / cm3 / 293.;    << 339   density = 1.963*273.*mg/cm3/293.;
344   G4Material* Xe55He15CH4 = new G4Material(nam << 340   G4Material* Xe55He15CH4 = new G4Material(name="Xe55He15CH4",density,
                                                   >> 341                                            ncomponents=3);
345   Xe55He15CH4->AddMaterial(Xe, 0.895);            342   Xe55He15CH4->AddMaterial(Xe, 0.895);
346   Xe55He15CH4->AddMaterial(He, 0.050);            343   Xe55He15CH4->AddMaterial(He, 0.050);
347   Xe55He15CH4->AddMaterial(metane, 0.055);     << 344   Xe55He15CH4->AddMaterial(metane,0.055);
348                                                   345 
349   // 90% Xe + 10% CH4, STP ; NIM A248 (1986) 3    346   // 90% Xe + 10% CH4, STP ; NIM A248 (1986) 379-388
350                                                   347 
351   density = 5.344 * mg / cm3;                  << 348   density = 5.344*mg/cm3;
352   G4Material* Xe10CH4 = new G4Material(name =  << 349   G4Material* Xe10CH4 = new G4Material(name="Xe10CH4"  , density,
353   Xe10CH4->AddMaterial(Xe, fractionmass = 0.98 << 350                                        ncomponents=2);
354   Xe10CH4->AddMaterial(metane, fractionmass =  << 351   Xe10CH4->AddMaterial( Xe,       fractionmass = 0.987 ) ;
                                                   >> 352   Xe10CH4->AddMaterial( metane,   fractionmass = 0.013 ) ;
355                                                   353 
356   // 95% Xe + 5% CH4, STP ; NIM A214 (1983) 26    354   // 95% Xe + 5% CH4, STP ; NIM A214 (1983) 261-268
357                                                   355 
358   density = 5.601 * mg / cm3;                  << 356   density = 5.601*mg/cm3;
359   G4Material* Xe5CH4 = new G4Material(name = " << 357   G4Material* Xe5CH4 = new G4Material(name="Xe5CH4"  , density,
360   Xe5CH4->AddMaterial(Xe, fractionmass = 0.994 << 358                                       ncomponents=2);
361   Xe5CH4->AddMaterial(metane, fractionmass = 0 << 359   Xe5CH4->AddMaterial( Xe,       fractionmass = 0.994 );
                                                   >> 360   Xe5CH4->AddMaterial( metane,   fractionmass = 0.006 );
362                                                   361 
363   // 80% Xe + 20% CH4, STP ; NIM A253 (1987) 2    362   // 80% Xe + 20% CH4, STP ; NIM A253 (1987) 235-244
364                                                   363 
365   density = 4.83 * mg / cm3;                   << 364   density = 4.83*mg/cm3;
366   G4Material* Xe20CH4 = new G4Material(name =  << 365   G4Material* Xe20CH4 = new G4Material(name="Xe20CH4"  , density,
367   Xe20CH4->AddMaterial(Xe, fractionmass = 0.97 << 366                                        ncomponents=2);
368   Xe20CH4->AddMaterial(metane, fractionmass =  << 367   Xe20CH4->AddMaterial( Xe,       fractionmass = 0.97 );
                                                   >> 368   Xe20CH4->AddMaterial( metane,   fractionmass = 0.03 );
369                                                   369 
370   // 93% Ar + 7% CH4, STP ; NIM 107 (1973) 413    370   // 93% Ar + 7% CH4, STP ; NIM 107 (1973) 413-422
371                                                   371 
372   density = 1.709 * mg / cm3;                  << 372   density = 1.709*mg/cm3;
373   G4Material* Ar7CH4 = new G4Material(name = " << 373   G4Material* Ar7CH4 = new G4Material(name="Ar7CH4"  , density,
374   Ar7CH4->AddMaterial(Argon, fractionmass = 0. << 374                                                   ncomponents=2);
375   Ar7CH4->AddMaterial(metane, fractionmass = 0 << 375   Ar7CH4->AddMaterial( Argon,       fractionmass = 0.971 );
                                                   >> 376   Ar7CH4->AddMaterial( metane,   fractionmass = 0.029 );
376                                                   377 
377   // 93% Kr + 7% CH4, STP ; NIM 107 (1973) 413    378   // 93% Kr + 7% CH4, STP ; NIM 107 (1973) 413-422
378                                                   379 
379   density = 3.491 * mg / cm3;                  << 380   density = 3.491*mg/cm3;
380   G4Material* Kr7CH4 = new G4Material(name = " << 381   G4Material* Kr7CH4 = new G4Material(name="Kr7CH4"  , density,
381   Kr7CH4->AddMaterial(Kr, fractionmass = 0.986 << 382                                                   ncomponents=2);
382   Kr7CH4->AddMaterial(metane, fractionmass = 0 << 383   Kr7CH4->AddMaterial( Kr,       fractionmass = 0.986 );
                                                   >> 384   Kr7CH4->AddMaterial( metane,   fractionmass = 0.014 );
383                                                   385 
384   // 0.5*(95% Xe + 5% CH4)+0.5*(93% Ar + 7% CH    386   // 0.5*(95% Xe + 5% CH4)+0.5*(93% Ar + 7% CH4), STP ; NIM A214 (1983) 261-268
385                                                   387 
386   density = 3.655 * mg / cm3;                  << 388   density = 3.655*mg/cm3;
387   G4Material* XeArCH4 = new G4Material(name =  << 389   G4Material* XeArCH4 = new G4Material(name="XeArCH4"  , density,
388   XeArCH4->AddMaterial(Xe5CH4, fractionmass =  << 390                                                   ncomponents=2);
389   XeArCH4->AddMaterial(Ar7CH4, fractionmass =  << 391   XeArCH4->AddMaterial( Xe5CH4,       fractionmass = 0.766 );
                                                   >> 392   XeArCH4->AddMaterial( Ar7CH4,   fractionmass = 0.234 );
390                                                   393 
391   // Silicon as detector material                 394   // Silicon as detector material
392                                                   395 
393   density = 2.330 * g / cm3;                   << 396   density = 2.330*g/cm3;
394   a = 28.09 * g / mole;                        << 397   a = 28.09*g/mole;
395   new G4Material(name = "Si", z = 14., a, dens << 398   new G4Material(name="Si", z=14., a, density);
                                                   >> 399 
                                                   >> 400 
                                                   >> 401 
396                                                   402 
397   /*                                              403   /*
398   G4Material* ma;                                 404   G4Material* ma;
399   ma  = new G4Material("H",     1.,  1.0*g/mol    405   ma  = new G4Material("H",     1.,  1.0*g/mole, 1.*g/cm3);
400   ma  = new G4Material("D",     1.,  2.0*g/mol    406   ma  = new G4Material("D",     1.,  2.0*g/mole, 1.*g/cm3);
401   ma  = new G4Material("Li",    3.,  6.941*g/m    407   ma  = new G4Material("Li",    3.,  6.941*g/mole, 1.*g/cm3);
402   ma  = new G4Material("Be",    4.,  9.01*g/mo    408   ma  = new G4Material("Be",    4.,  9.01*g/mole, 1.848*g/cm3);
403   ma  = new G4Material("C",     6.,  12.00*g/m    409   ma  = new G4Material("C",     6.,  12.00*g/mole, 2.0*g/cm3);
404         ma  = new G4Material("Graphite",6., 12    410         ma  = new G4Material("Graphite",6., 12.00*g/mole, 2.265*g/cm3 );
405   ma->SetChemicalFormula("Graphite");             411   ma->SetChemicalFormula("Graphite");
406   ma  = new G4Material("Al",    13.,  26.98*g/    412   ma  = new G4Material("Al",    13.,  26.98*g/mole,  2.7 *g/cm3);
407         ma  = new G4Material("Si",    14.,  29    413         ma  = new G4Material("Si",    14.,  29.055*g/mole, 2.33*g/cm3);
408         ma  = new G4Material("LAr",   18.,  39    414         ma  = new G4Material("LAr",   18.,  39.95*g/mole,  1.393*g/cm3);
409         ma  = new G4Material("Zr",    40.,  91    415         ma  = new G4Material("Zr",    40.,  91.224*g/mole, 4.0*g/cm3);
410         ma  = new G4Material("LXe",   54., 131    416         ma  = new G4Material("LXe",   54., 131.29*g/mole,  3.02*g/cm3);
411         ma  = new G4Material("Fe",    26.,  55    417         ma  = new G4Material("Fe",    26.,  55.85*g/mole,  7.87*g/cm3);
412         ma  = new G4Material("Ni",    29.,  58    418         ma  = new G4Material("Ni",    29.,  58.6934*g/mole,  8.00*g/cm3);
413         ma  = new G4Material("Cu",    29.,  63    419         ma  = new G4Material("Cu",    29.,  63.55*g/mole,  8.96*g/cm3);
414         ma  = new G4Material("Au",    79., 196    420         ma  = new G4Material("Au",    79., 196.97*g/mole, 19.32*g/cm3);
415         ma  = new G4Material("Ta",    73., 180    421         ma  = new G4Material("Ta",    73., 180.9479*g/mole, 16.67*g/cm3);
416         ma  = new G4Material("W",     74., 183    422         ma  = new G4Material("W",     74., 183.85*g/mole, 19.30*g/cm3);
417         ma  = new G4Material("Pb",    82., 207    423         ma  = new G4Material("Pb",    82., 207.19*g/mole, 11.35*g/cm3);
418         ma  = new G4Material("Bi",    83., 208    424         ma  = new G4Material("Bi",    83., 208.98*g/mole, 12.*g/cm3);
419         ma  = new G4Material("U",     92., 238    425         ma  = new G4Material("U",     92., 238.03*g/mole, 18.95*g/cm3);
420                                                   426 
421   G4Element*   H  = new G4Element ("Hydrogen",    427   G4Element*   H  = new G4Element ("Hydrogen", "H",   1. ,  1.01*g/mole);
422   G4Element*   N  = new G4Element ("Nitrigen",    428   G4Element*   N  = new G4Element ("Nitrigen", "N",   7. , 14.00*g/mole);
423   G4Element*   O  = new G4Element ("Oxygen"  ,    429   G4Element*   O  = new G4Element ("Oxygen"  , "O",   8. , 16.00*g/mole);
424   G4Element*   C  = new G4Element ("Carbon"  ,    430   G4Element*   C  = new G4Element ("Carbon"  , "C",   6. , 12.00*g/mole);
425   G4Element*  Cs  = new G4Element ("Cesium"  ,    431   G4Element*  Cs  = new G4Element ("Cesium"  , "Cs", 55. , 132.905*g/mole);
426   G4Element*   I  = new G4Element ("Iodide"  ,    432   G4Element*   I  = new G4Element ("Iodide"  , "I",  53. , 126.9044*g/mole);
427                                                   433 
428   ma = new G4Material("O2", 8., 16.00*g/mole,     434   ma = new G4Material("O2", 8., 16.00*g/mole, 1.1*g/cm3);
429   ma->SetChemicalFormula("O_2");                  435   ma->SetChemicalFormula("O_2");
430   ma = new G4Material ("Water" , 1.*g/cm3, 2);    436   ma = new G4Material ("Water" , 1.*g/cm3, 2);
431   ma->AddElement(H,2);                            437   ma->AddElement(H,2);
432   ma->AddElement(O,1);                            438   ma->AddElement(O,1);
433   ma->SetChemicalFormula("H_2O");                 439   ma->SetChemicalFormula("H_2O");
434   ma = new G4Material ("Ethane" , 0.4241*g/cm3    440   ma = new G4Material ("Ethane" , 0.4241*g/cm3, 2);
435   ma->AddElement(H,6);                            441   ma->AddElement(H,6);
436   ma->AddElement(C,2);                            442   ma->AddElement(C,2);
437   ma->SetChemicalFormula("C_2H_6");               443   ma->SetChemicalFormula("C_2H_6");
438   ma = new G4Material ("CsI" , 4.53*g/cm3, 2);    444   ma = new G4Material ("CsI" , 4.53*g/cm3, 2);
439   ma->AddElement(Cs,1);                           445   ma->AddElement(Cs,1);
440   ma->AddElement(I,1);                            446   ma->AddElement(I,1);
441   ma->SetChemicalFormula("CsI");                  447   ma->SetChemicalFormula("CsI");
442   ma = new G4Material("Air"  , 1.290*mg/cm3, 2    448   ma = new G4Material("Air"  , 1.290*mg/cm3, 2);
443         // use fraction in mass                   449         // use fraction in mass
444   ma->AddElement(N, 0.7);                         450   ma->AddElement(N, 0.7);
445   ma->AddElement(O, 0.3);                         451   ma->AddElement(O, 0.3);
446   */                                              452   */
                                                   >> 453 
                                                   >> 454 
                                                   >> 455 
447 }                                                 456 }
448                                                   457 
449 //....oooOO0OOooo........oooOO0OOooo........oo << 
450                                                   458 
451 G4Material* Materials::GetMaterial(const G4Str    459 G4Material* Materials::GetMaterial(const G4String& name)
452 {                                              << 460 { 
453   //  const G4MaterialTable* theMaterialTable  << 
454                                                   461 
455   G4Material* ma = G4Material::GetMaterial(nam << 462   //  const G4MaterialTable* theMaterialTable = G4Material::GetMaterialTable();
456                                                   463 
                                                   >> 464         G4Material* ma = G4Material::GetMaterial(name);
                                                   >> 465         
457   G4cout << "Material is selected: " << ma->Ge    466   G4cout << "Material is selected: " << ma->GetName() << G4endl;
458   return ma;                                      467   return ma;
459 }                                              << 468 }        
                                                   >> 469 
                                                   >> 470   
                                                   >> 471 
                                                   >> 472 
                                                   >> 473 
                                                   >> 474 
                                                   >> 475 
                                                   >> 476 
460                                                   477