Geant4 Cross Reference |
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These * 9 // * include a list of copyright holders. 9 // * include a list of copyright holders. * 10 // * 10 // * * 11 // * Neither the authors of this software syst 11 // * Neither the authors of this software system, nor their employing * 12 // * institutes,nor the agencies providing fin 12 // * institutes,nor the agencies providing financial support for this * 13 // * work make any representation or warran 13 // * work make any representation or warranty, express or implied, * 14 // * regarding this software system or assum 14 // * regarding this software system or assume any liability for its * 15 // * use. Please see the license in the file 15 // * use. Please see the license in the file LICENSE and URL above * 16 // * for the full disclaimer and the limitatio 16 // * for the full disclaimer and the limitation of liability. * 17 // * 17 // * * 18 // * This code implementation is the result 18 // * This code implementation is the result of the scientific and * 19 // * technical work of the GEANT4 collaboratio 19 // * technical work of the GEANT4 collaboration. * 20 // * By using, copying, modifying or distri 20 // * By using, copying, modifying or distributing the software (or * 21 // * any work based on the software) you ag 21 // * any work based on the software) you agree to acknowledge its * 22 // * use in resulting scientific publicati 22 // * use in resulting scientific publications, and indicate your * 23 // * acceptance of all terms of the Geant4 Sof 23 // * acceptance of all terms of the Geant4 Software license. * 24 // ******************************************* 24 // ******************************************************************** 25 // 25 // 26 // Author: Mathieu Fontaine, Rachi 26 // Author: Mathieu Fontaine, Rachid Mazini 27 // fontaine@lps.umontreal. 27 // fontaine@lps.umontreal.ca Rachid.Mazini@cern.ch 28 // 28 // 29 // Language: C++ 29 // Language: C++ 30 // Tested on: g++ 30 // Tested on: g++ 31 // Prerequisites: None 31 // Prerequisites: None 32 // Purpose: This is the place, wher 32 // Purpose: This is the place, where all the materials get defined. 33 // Instead of coding those 33 // Instead of coding those materials locally, where they 34 // are needed, it is much 34 // are needed, it is much easier to maintain, if we keep 35 // all materials for a det 35 // all materials for a detector component in one place. 36 // Everybody who needs som 36 // Everybody who needs some of these parameters, can 37 // query the FCALMaterialC 37 // query the FCALMaterialConsultant. 38 // --> This class is made a si 38 // --> This class is made a singleton by making the 39 // constructor private and 39 // constructor private and hiding it behind the 40 // construct() method, whi 40 // construct() method, which creates a first instance 41 // if it does not exist. T 41 // if it does not exist. This is to prevent multiple 42 // copies of this consulta 42 // copies of this consultant with potentially different 43 // contents (once the data 43 // contents (once the data is loaded from files and/or 44 // can be changed by user 44 // can be changed by user interaction). 45 // --> The method Material is 45 // --> The method Material is provided to access to the data 46 // stored, a routine ShowM 46 // stored, a routine ShowMeAllYouKnow can be queried to 47 // dump the entire knowled 47 // dump the entire knowledge of this consultant. 48 // 48 // 49 // * Ideas on how the theFCA 49 // * Ideas on how the theFCALMaterialConsultant pointer 50 // is made static are borr 50 // is made static are borrowed from G4VisManager. 51 // 51 // 52 //-------------------------------------------- 52 //---------------------------------------------------------------------------------- 53 53 54 #include "FCALMaterialConsultant.hh" 54 #include "FCALMaterialConsultant.hh" 55 55 56 #include "globals.hh" 56 #include "globals.hh" 57 #include "G4PhysicalConstants.hh" 57 #include "G4PhysicalConstants.hh" 58 #include "G4SystemOfUnits.hh" 58 #include "G4SystemOfUnits.hh" 59 59 60 FCALMaterialConsultant *FCALMaterialConsultant 60 FCALMaterialConsultant *FCALMaterialConsultant::theFCALMaterialConsultant = NULL; 61 61 62 FCALMaterialConsultant::FCALMaterialConsultant 62 FCALMaterialConsultant::FCALMaterialConsultant() 63 { 63 { 64 G4double a,z,density,fractionmass; 64 G4double a,z,density,fractionmass; 65 G4String name,symbol; 65 G4String name,symbol; 66 G4int nel,natoms; 66 G4int nel,natoms; 67 67 68 //------------ 68 //------------ 69 // elements 69 // elements 70 //------------ 70 //------------ 71 71 72 a=1.01*g/mole; 72 a=1.01*g/mole; 73 elH=new G4Element(name="Hydrogen",symbol="H2 73 elH=new G4Element(name="Hydrogen",symbol="H2",z=1.,a); 74 74 75 a=2.01*g/mole; 75 a=2.01*g/mole; 76 elD=new G4Element(name="Deuterium",symbol="D 76 elD=new G4Element(name="Deuterium",symbol="D",z=1.,a); 77 77 78 a=4.*g/mole; 78 a=4.*g/mole; 79 elHe=new G4Element(name="Helium",symbol="He" 79 elHe=new G4Element(name="Helium",symbol="He",z=2.,a); 80 80 81 a=6.94*g/mole; 81 a=6.94*g/mole; 82 elLi=new G4Element(name="Lithium",symbol="Li 82 elLi=new G4Element(name="Lithium",symbol="Li",z=3.,a); 83 83 84 a=9.01*g/mole; 84 a=9.01*g/mole; 85 elBe=new G4Element(name="Berillium",symbol=" 85 elBe=new G4Element(name="Berillium",symbol="Be",z=4.,a); 86 86 87 a=12.01*g/mole; 87 a=12.01*g/mole; 88 elC=new G4Element(name="Carbon",symbol="C",z 88 elC=new G4Element(name="Carbon",symbol="C",z=6.,a); 89 89 90 a=14.01*g/mole; 90 a=14.01*g/mole; 91 elN=new G4Element(name="Nitrogen",symbol="N2 91 elN=new G4Element(name="Nitrogen",symbol="N2",z=7.,a); 92 92 93 a=16.*g/mole; 93 a=16.*g/mole; 94 elO=new G4Element(name="Oxygen",symbol="O2", 94 elO=new G4Element(name="Oxygen",symbol="O2",z=8.,a); 95 95 96 a=20.18*g/mole; 96 a=20.18*g/mole; 97 elNe=new G4Element(name="Neon",symbol="Ne",z 97 elNe=new G4Element(name="Neon",symbol="Ne",z=10.,a); 98 98 99 a=22.99*g/mole; 99 a=22.99*g/mole; 100 elNa=new G4Element(name="Sodium",symbol="Na" 100 elNa=new G4Element(name="Sodium",symbol="Na",z=11.,a); 101 101 102 a=26.98*g/mole; 102 a=26.98*g/mole; 103 elAl=new G4Element(name="Aluminium",symbol=" 103 elAl=new G4Element(name="Aluminium",symbol="Al",z=13.,a); 104 104 105 a=28.085*g/mole; 105 a=28.085*g/mole; 106 elSi=new G4Element(name="Silicon",symbol="Si 106 elSi=new G4Element(name="Silicon",symbol="Si",z=14.,a); 107 107 108 a=40.08*g/mole; 108 a=40.08*g/mole; 109 elCa=new G4Element(name="Calcium",symbol="Ca 109 elCa=new G4Element(name="Calcium",symbol="Ca",z=20.,a); 110 110 111 a=55.850*g/mole; 111 a=55.850*g/mole; 112 elFe=new G4Element(name="Iron",symbol="Fe",z 112 elFe=new G4Element(name="Iron",symbol="Fe",z=26.,a); 113 113 114 a=63.54*g/mole; 114 a=63.54*g/mole; 115 elCu=new G4Element(name="Copper",symbol="Cu" 115 elCu=new G4Element(name="Copper",symbol="Cu",z=29.,a); 116 116 117 a=183.85*g/mole; 117 a=183.85*g/mole; 118 elW=new G4Element(name="Tungstenm",symbol="W 118 elW=new G4Element(name="Tungstenm",symbol="W",z=74.,a); 119 119 120 a=207.19*g/mole; 120 a=207.19*g/mole; 121 elPb=new G4Element(name="Lead",symbol="Pb",z 121 elPb=new G4Element(name="Lead",symbol="Pb",z=82.,a); 122 122 123 a=238.03*g/mole; 123 a=238.03*g/mole; 124 elU=new G4Element(name="Uranium",symbol="U", 124 elU=new G4Element(name="Uranium",symbol="U",z=92.,a); 125 125 126 126 127 //------------------- 127 //------------------- 128 // simple materials 128 // simple materials 129 //------------------- 129 //------------------- 130 130 131 density = 2.7*g/cm3; 131 density = 2.7*g/cm3; 132 a = 26.98*g/mole; 132 a = 26.98*g/mole; 133 Aluminium = new G4Material(name="Aluminium", 133 Aluminium = new G4Material(name="Aluminium",z=13.,a,density); 134 134 135 density = 7.87*g/cm3; 135 density = 7.87*g/cm3; 136 a = 55.85*g/mole; 136 a = 55.85*g/mole; 137 Iron = new G4Material(name="Iron",z=26.,a,de 137 Iron = new G4Material(name="Iron",z=26.,a,density); 138 138 139 density = 8.96*g/cm3; 139 density = 8.96*g/cm3; 140 a = 63.54*g/mole; 140 a = 63.54*g/mole; 141 Copper = new G4Material(name="Copper",z=29., 141 Copper = new G4Material(name="Copper",z=29.,a,density); 142 142 143 density = 19.3*g/cm3; 143 density = 19.3*g/cm3; 144 a = 183.85*g/mole; 144 a = 183.85*g/mole; 145 Tungsten = new G4Material(name="Tungsten",z= 145 Tungsten = new G4Material(name="Tungsten",z=74.,a,density); 146 146 147 density = 11.35*g/cm3; 147 density = 11.35*g/cm3; 148 a = 207.19*g/mole; 148 a = 207.19*g/mole; 149 Lead = new G4Material(name="Lead",z=82.,a,de 149 Lead = new G4Material(name="Lead",z=82.,a,density); 150 150 151 density = 1.4*g/cm3; 151 density = 1.4*g/cm3; 152 a = 39.95*g/mole; 152 a = 39.95*g/mole; 153 LiquidArgon = new G4Material(name="LiquidArg 153 LiquidArgon = new G4Material(name="LiquidArgon",z=18.,a,density); 154 154 155 density = 0.002*g/cm3; 155 density = 0.002*g/cm3; 156 a = 39.95*g/mole; 156 a = 39.95*g/mole; 157 ArgonGas = new G4Material(name="ArgonGas",z= 157 ArgonGas = new G4Material(name="ArgonGas",z=18.,a,density); 158 158 159 density = 8.96*g/cm3; 159 density = 8.96*g/cm3; 160 a = 58.69*g/mole; 160 a = 58.69*g/mole; 161 Nickel = new G4Material(name="Nickel",z=28., 161 Nickel = new G4Material(name="Nickel",z=28.,a,density); 162 162 163 163 164 //------------------ 164 //------------------ 165 // mixtures 165 // mixtures 166 //------------------ 166 //------------------ 167 167 168 density = 1.290*mg/cm3; 168 density = 1.290*mg/cm3; 169 Air = new G4Material(name="Air",density, nel 169 Air = new G4Material(name="Air",density, nel=2); 170 Air->AddElement(elN, 0.7); 170 Air->AddElement(elN, 0.7); 171 Air->AddElement(elO, 0.3); 171 Air->AddElement(elO, 0.3); 172 172 173 RhoaCell = Air; 173 RhoaCell = Air; 174 174 175 175 176 density = 1.e-5*g/cm3; 176 density = 1.e-5*g/cm3; 177 G4double pressure = 2.e-2*bar; 177 G4double pressure = 2.e-2*bar; 178 G4double temperature = STP_Temperature; 178 G4double temperature = STP_Temperature; //from PhysicalConstants.h 179 Vacuum = new G4Material(name="Vacuum", densi << 179 G4Material* Vacuum = new G4Material(name="Vacuum", density, nel=1, 180 kStateGas,temperature,pressure); << 180 kStateGas,temperature,pressure); 181 Vacuum->AddMaterial(Air, fractionmass=1.); 181 Vacuum->AddMaterial(Air, fractionmass=1.); 182 182 183 183 184 density = 0.002*g/cm3; 184 density = 0.002*g/cm3; 185 CO2 = new G4Material(name="CO2",density,nel= 185 CO2 = new G4Material(name="CO2",density,nel=2); 186 CO2->AddElement(elC, natoms=1); 186 CO2->AddElement(elC, natoms=1); 187 CO2->AddElement(elO, natoms=2); 187 CO2->AddElement(elO, natoms=2); 188 188 189 density = 1.42*g/cm3; 189 density = 1.42*g/cm3; 190 Kapton = new G4Material(name="Kapton",densit 190 Kapton = new G4Material(name="Kapton",density, nel=4); 191 Kapton->AddElement(elH, fractionmass = 0.027 191 Kapton->AddElement(elH, fractionmass = 0.0273); 192 Kapton->AddElement(elC, fractionmass = 0.721 192 Kapton->AddElement(elC, fractionmass = 0.7213); 193 Kapton->AddElement(elN, fractionmass = 0.076 193 Kapton->AddElement(elN, fractionmass = 0.0765); 194 Kapton->AddElement(elO, fractionmass = 0.174 194 Kapton->AddElement(elO, fractionmass = 0.1749); 195 195 196 density = 1.032*g/cm3; 196 density = 1.032*g/cm3; 197 Polystyrene = new G4Material(name="Polystyre 197 Polystyrene = new G4Material(name="Polystyrene",density,nel=2); 198 Polystyrene->AddElement(elC, natoms=8); 198 Polystyrene->AddElement(elC, natoms=8); 199 Polystyrene->AddElement(elH, natoms=8); 199 Polystyrene->AddElement(elH, natoms=8); 200 200 201 density = 5.185*g/cm3; 201 density = 5.185*g/cm3; 202 FCAL1CuArKap = new G4Material(name="FCAL1CuA 202 FCAL1CuArKap = new G4Material(name="FCAL1CuArKap",density,nel=3); 203 FCAL1CuArKap->AddMaterial(Copper, fractionma 203 FCAL1CuArKap->AddMaterial(Copper, fractionmass = 0.864); 204 FCAL1CuArKap->AddMaterial(Kapton, fractionma 204 FCAL1CuArKap->AddMaterial(Kapton, fractionmass = 0.068); 205 FCAL1CuArKap->AddMaterial(LiquidArgon, fract 205 FCAL1CuArKap->AddMaterial(LiquidArgon, fractionmass = 0.068); 206 206 207 density = 8.701*g/cm3; 207 density = 8.701*g/cm3; 208 FCAL1CuAr = new G4Material(name="FCAL1CuAr", 208 FCAL1CuAr = new G4Material(name="FCAL1CuAr",density,nel=2); 209 FCAL1CuAr->AddMaterial(Copper, fractionmass 209 FCAL1CuAr->AddMaterial(Copper, fractionmass = 0.994); 210 FCAL1CuAr->AddMaterial(LiquidArgon, fraction 210 FCAL1CuAr->AddMaterial(LiquidArgon, fractionmass = 0.006); 211 211 212 density = 5.185*g/cm3; 212 density = 5.185*g/cm3; 213 FCAL2CuArKap = new G4Material(name="FCAL2CuA 213 FCAL2CuArKap = new G4Material(name="FCAL2CuArKap",density,nel=3); 214 FCAL2CuArKap->AddMaterial(Copper, fractionma 214 FCAL2CuArKap->AddMaterial(Copper, fractionmass = 0.864); 215 FCAL2CuArKap->AddMaterial(Kapton, fractionma 215 FCAL2CuArKap->AddMaterial(Kapton, fractionmass = 0.068); 216 FCAL2CuArKap->AddMaterial(LiquidArgon, fract 216 FCAL2CuArKap->AddMaterial(LiquidArgon, fractionmass = 0.068); 217 217 218 density = 18.6*g/cm3; 218 density = 18.6*g/cm3; 219 FCAL2WFeNi = new G4Material(name="FCAL2WFeNi 219 FCAL2WFeNi = new G4Material(name="FCAL2WFeNi",density,nel=3); 220 FCAL2WFeNi->AddMaterial(Tungsten, fractionma 220 FCAL2WFeNi->AddMaterial(Tungsten, fractionmass = 0.97); 221 FCAL2WFeNi->AddMaterial(Iron, fractionmass = 221 FCAL2WFeNi->AddMaterial(Iron, fractionmass = 0.01); 222 FCAL2WFeNi->AddMaterial(Nickel, fractionmass 222 FCAL2WFeNi->AddMaterial(Nickel, fractionmass = 0.02); 223 223 224 density = 15.366*g/cm3; 224 density = 15.366*g/cm3; 225 FCAL2WFeNiCuAr = new G4Material(name="FCAL2W 225 FCAL2WFeNiCuAr = new G4Material(name="FCAL2WFeNiCuAr",density,nel=3); 226 FCAL2WFeNiCuAr->AddMaterial(FCAL2WFeNi, frac 226 FCAL2WFeNiCuAr->AddMaterial(FCAL2WFeNi, fractionmass = 0.913); 227 FCAL2WFeNiCuAr->AddMaterial(Copper, fraction 227 FCAL2WFeNiCuAr->AddMaterial(Copper, fractionmass = 0.077); 228 FCAL2WFeNiCuAr->AddMaterial(LiquidArgon, fra 228 FCAL2WFeNiCuAr->AddMaterial(LiquidArgon, fractionmass = 0.01); 229 229 230 density = 0.002*g/cm3; 230 density = 0.002*g/cm3; 231 MWPCArCO2 = new G4Material(name="MWPCArCO2", 231 MWPCArCO2 = new G4Material(name="MWPCArCO2",density,nel=2); 232 MWPCArCO2->AddMaterial(CO2, fractionmass = 0 232 MWPCArCO2->AddMaterial(CO2, fractionmass = 0.2); 233 MWPCArCO2->AddMaterial(ArgonGas, fractionmas 233 MWPCArCO2->AddMaterial(ArgonGas, fractionmass = 0.8); 234 234 235 235 236 // must check recipe for concrete 236 // must check recipe for concrete 237 237 238 density = 2.5*g/cm3; 238 density = 2.5*g/cm3; 239 ShieldingConcrete = new G4Material(name="Shi 239 ShieldingConcrete = new G4Material(name="ShieldingConcrete",density,nel=6); 240 ShieldingConcrete->AddElement(elO, fractionm 240 ShieldingConcrete->AddElement(elO, fractionmass = 0.52); 241 ShieldingConcrete->AddElement(elSi, fraction 241 ShieldingConcrete->AddElement(elSi, fractionmass = 0.325); 242 ShieldingConcrete->AddElement(elCa, fraction 242 ShieldingConcrete->AddElement(elCa, fractionmass = 0.06); 243 ShieldingConcrete->AddElement(elNa, fraction 243 ShieldingConcrete->AddElement(elNa, fractionmass = 0.015); 244 ShieldingConcrete->AddElement(elFe, fraction 244 ShieldingConcrete->AddElement(elFe, fractionmass = 0.04); 245 ShieldingConcrete->AddElement(elAl, fraction 245 ShieldingConcrete->AddElement(elAl, fractionmass = 0.04); 246 246 247 // must have the right composition for stain 247 // must have the right composition for stainless steel 248 248 249 density = 8.96*g/cm3; 249 density = 8.96*g/cm3; 250 StainlessSteel = new G4Material(name="Stainl 250 StainlessSteel = new G4Material(name="StainlessSteel",density,nel=1); 251 StainlessSteel->AddElement(elO, fractionmass 251 StainlessSteel->AddElement(elO, fractionmass = 1.); 252 252 253 } 253 } 254 254 255 FCALMaterialConsultant * FCALMaterialConsultan << 255 FCALMaterialConsultant * FCALMaterialConsultant::construct() 256 { 256 { 257 if (theFCALMaterialConsultant == NULL) { 257 if (theFCALMaterialConsultant == NULL) { 258 theFCALMaterialConsultant = new FCALMateri 258 theFCALMaterialConsultant = new FCALMaterialConsultant(); 259 } 259 } 260 return theFCALMaterialConsultant; 260 return theFCALMaterialConsultant; 261 } 261 } 262 262 263 G4Material * FCALMaterialConsultant::Material( 263 G4Material * FCALMaterialConsultant::Material(G4String what) 264 { 264 { 265 G4Material* material = 0; 265 G4Material* material = 0; 266 if(what == "Air") material = A 266 if(what == "Air") material = Air; 267 if(what == "Vacuum") material = V 267 if(what == "Vacuum") material = Vacuum; 268 if(what == "LiquidArgon") material = L 268 if(what == "LiquidArgon") material = LiquidArgon; 269 if(what == "Aluminium") material = A 269 if(what == "Aluminium") material = Aluminium; 270 if(what == "Iron") material = I 270 if(what == "Iron") material = Iron; 271 if(what == "Copper") material = C 271 if(what == "Copper") material = Copper; 272 if(what == "Tungsten") material = T 272 if(what == "Tungsten") material = Tungsten; 273 if(what == "Lead") material = L 273 if(what == "Lead") material = Lead; 274 if(what == "CO2") material = C 274 if(what == "CO2") material = CO2; 275 if(what == "ArgonGas") material = A 275 if(what == "ArgonGas") material = ArgonGas; 276 if(what == "ShieldingConcrete") material = S 276 if(what == "ShieldingConcrete") material = ShieldingConcrete; 277 if(what == "Polystyrene") material = P 277 if(what == "Polystyrene") material = Polystyrene; 278 if(what == "StainlessSteel") material = S 278 if(what == "StainlessSteel") material = StainlessSteel; 279 if(what == "Nickel") material = N 279 if(what == "Nickel") material = Nickel; 280 if(what == "FCAL1CuArKap") material = F 280 if(what == "FCAL1CuArKap") material = FCAL1CuArKap; 281 if(what == "FCAL1CuAr") material = F 281 if(what == "FCAL1CuAr") material = FCAL1CuAr; 282 if(what == "FCAL2CuArKap") material = F 282 if(what == "FCAL2CuArKap") material = FCAL2CuArKap; 283 if(what == "FCAL2WFeNi") material = F 283 if(what == "FCAL2WFeNi") material = FCAL2WFeNi; 284 if(what == "FCAL2WFeNiCuAr") material = F 284 if(what == "FCAL2WFeNiCuAr") material = FCAL2WFeNiCuAr; 285 if(what == "MWPCArCO2") material = M 285 if(what == "MWPCArCO2") material = MWPCArCO2; 286 if(what == "RhoaCell") material = R 286 if(what == "RhoaCell") material = RhoaCell; 287 287 288 return material; 288 return material; 289 } 289 } 290 290 291 291