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The name of the author may not be used to endorse or promote products 38 // derived from this software without specif 38 // derived from this software without specific prior written permission. 39 // 39 // 40 // THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``A 40 // THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED 41 // WARRANTIES, INCLUDING, BUT NOT LIMITED TO, 41 // WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF 42 // MERCHANTABILITY AND FITNESS FOR A PARTICULA 42 // MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO 43 // EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DI 43 // EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 44 // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGE 44 // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, 45 // PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES 45 // PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; 46 // OR BUSINESS INTERRUPTION) HOWEVER CAUSED AN 46 // OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, 47 // WHETHER IN CONTRACT, STRICT LIABILITY, OR T 47 // WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR 48 // OTHERWISE) ARISING IN ANY WAY OUT OF THE US 48 // OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF 49 // ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 49 // ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 50 // 50 // 51 // Copyright (c) 2006 The Regents of the Unive 51 // Copyright (c) 2006 The Regents of the University of California. 52 // All rights reserved. 52 // All rights reserved. 53 // UCRL-CODE-224807 53 // UCRL-CODE-224807 54 // 54 // 55 // 55 // 56 56 57 #include "G4fissionEvent.hh" 57 #include "G4fissionEvent.hh" 58 58 59 G4int G4fissionEvent::delayoption=0; 59 G4int G4fissionEvent::delayoption=0; 60 G4int G4fissionEvent::correlationoption=0; 60 G4int G4fissionEvent::correlationoption=0; 61 G4int G4fissionEvent::nudistoption=3; 61 G4int G4fissionEvent::nudistoption=3; 62 G4int G4fissionEvent::Cf252ndistoption=0; 62 G4int G4fissionEvent::Cf252ndistoption=0; 63 G4int G4fissionEvent::Cf252nengoption=0; 63 G4int G4fissionEvent::Cf252nengoption=0; 64 64 65 G4fissionEvent::G4fissionEvent(G4int isotope, 65 G4fissionEvent::G4fissionEvent(G4int isotope, G4double time, 66 G4double nubar, 66 G4double nubar, G4double eng) 67 :neutronNu(0), neutronEnergies(0), neutronVel 67 :neutronNu(0), neutronEnergies(0), neutronVelocities(0), neutronDircosu(0), 68 neutronDircosv(), neutronDircosw(), neutronA 68 neutronDircosv(), neutronDircosw(), neutronAges(0), 69 photonNu(0), photonEnergies(0), photonVeloci 69 photonNu(0), photonEnergies(0), photonVelocities(0), photonDircosu(0), 70 photonDircosv(0), photonDircosw(0), photonAg 70 photonDircosv(0), photonDircosw(0), photonAges(0) 71 { 71 { 72 /* 72 /* 73 * Constructs a fission event with neutronN 73 * Constructs a fission event with neutronNu neutrons and photonNu 74 * photons. 74 * photons. 75 */ 75 */ 76 G4int i; 76 G4int i; 77 77 78 if (nubar == -1.) { 78 if (nubar == -1.) { 79 /* spontaneous fission */ 79 /* spontaneous fission */ 80 neutronNu = G4SmpSpNuDistData(isotope, C 80 neutronNu = G4SmpSpNuDistData(isotope, Cf252ndistoption); 81 photonNu = G4SmpSpNugDistData(isotope); 81 photonNu = G4SmpSpNugDistData(isotope); 82 } else { 82 } else { 83 /* induced fission */ 83 /* induced fission */ 84 if (nudistoption == 0 || nudistoption == 84 if (nudistoption == 0 || nudistoption == 1) { 85 switch (isotope) { 85 switch (isotope) { 86 case 92235: 86 case 92235: 87 neutronNu = G4SmpNuDistDataU235 87 neutronNu = G4SmpNuDistDataU235(eng,nudistoption); 88 break; 88 break; 89 case 92238: 89 case 92238: 90 neutronNu = G4SmpNuDistDataU238 90 neutronNu = G4SmpNuDistDataU238(eng); 91 break; 91 break; 92 case 94239: 92 case 94239: 93 neutronNu = G4SmpNuDistDataPu23 93 neutronNu = G4SmpNuDistDataPu239(eng); 94 break; 94 break; 95 default: 95 default: 96 neutronNu = (G4int) G4SmpTerrel 96 neutronNu = (G4int) G4SmpTerrell(nubar); 97 break; 97 break; 98 } 98 } 99 } else if (nudistoption == 2) { 99 } else if (nudistoption == 2) { 100 switch (isotope) { 100 switch (isotope) { 101 case 92232: 101 case 92232: 102 case 92234: 102 case 92234: 103 case 92236: 103 case 92236: 104 case 92238: 104 case 92238: 105 neutronNu = G4SmpNuDistDataU232 105 neutronNu = G4SmpNuDistDataU232_234_236_238(nubar); 106 break; 106 break; 107 case 92233: 107 case 92233: 108 case 92235: 108 case 92235: 109 neutronNu = (G4int) G4SmpNuDist 109 neutronNu = (G4int) G4SmpNuDistDataU233_235(nubar); 110 break; 110 break; 111 case 94239: 111 case 94239: 112 case 94241: 112 case 94241: 113 neutronNu = G4SmpNuDistDataPu23 113 neutronNu = G4SmpNuDistDataPu239_241(nubar); 114 break; 114 break; 115 default: 115 default: 116 neutronNu = (G4int) G4SmpTerrel 116 neutronNu = (G4int) G4SmpTerrell(nubar); 117 break; 117 break; 118 } 118 } 119 } else if (nudistoption == 3) { 119 } else if (nudistoption == 3) { 120 switch (isotope) { 120 switch (isotope) { 121 case 92232: 121 case 92232: 122 case 92234: 122 case 92234: 123 case 92236: 123 case 92236: 124 case 92238: 124 case 92238: 125 neutronNu = G4SmpNuDistDataU232 125 neutronNu = G4SmpNuDistDataU232_234_236_238_MC(nubar); 126 break; 126 break; 127 case 92233: 127 case 92233: 128 case 92235: 128 case 92235: 129 neutronNu = (G4int) G4SmpNuDist 129 neutronNu = (G4int) G4SmpNuDistDataU233_235_MC(nubar); 130 break; 130 break; 131 case 94239: 131 case 94239: 132 case 94241: 132 case 94241: 133 neutronNu = G4SmpNuDistDataPu23 133 neutronNu = G4SmpNuDistDataPu239_241_MC(nubar); 134 break; 134 break; 135 default: 135 default: 136 neutronNu = (G4int) G4SmpTerrel 136 neutronNu = (G4int) G4SmpTerrell(nubar); 137 break; 137 break; 138 } 138 } 139 } 139 } 140 photonNu = G4SmpNugDist(isotope, nubar); 140 photonNu = G4SmpNugDist(isotope, nubar); 141 } 141 } 142 if (neutronNu > 0) { 142 if (neutronNu > 0) { 143 neutronEnergies = new G4double[ neutronN 143 neutronEnergies = new G4double[ neutronNu ]; 144 neutronVelocities = new G4double[ neutro 144 neutronVelocities = new G4double[ neutronNu ]; 145 neutronDircosu = new G4double[ neutronNu 145 neutronDircosu = new G4double[ neutronNu ]; 146 neutronDircosv = new G4double[ neutronNu 146 neutronDircosv = new G4double[ neutronNu ]; 147 neutronDircosw = new G4double[ neutronNu 147 neutronDircosw = new G4double[ neutronNu ]; 148 neutronAges = new G4double[neutronNu]; 148 neutronAges = new G4double[neutronNu]; 149 for (i=0; i<neutronNu; i++) { 149 for (i=0; i<neutronNu; i++) { 150 if (isotope == 98252) neutronEnergies 150 if (isotope == 98252) neutronEnergies[i] = G4SmpNEngCf252(Cf252nengoption); 151 else neutronEnergies[i] = G4SmpWatt(e 151 else neutronEnergies[i] = G4SmpWatt(eng, isotope); 152 neutronVelocities[i] = G4SmpNVel( 152 neutronVelocities[i] = G4SmpNVel( 153 neutronEnergies[i], 153 neutronEnergies[i], 154 &(neutronDircosu[i]), 154 &(neutronDircosu[i]), 155 &(neutronDircosv[i]), 155 &(neutronDircosv[i]), 156 &(neutronDircosw[i]) 156 &(neutronDircosw[i]) 157 ); 157 ); 158 neutronAges[i] = time; 158 neutronAges[i] = time; 159 } 159 } 160 } 160 } 161 if (photonNu > 0) { 161 if (photonNu > 0) { 162 photonEnergies = new G4double[photonNu]; 162 photonEnergies = new G4double[photonNu]; 163 photonVelocities = new G4double[photonNu 163 photonVelocities = new G4double[photonNu]; 164 photonDircosu = new G4double[photonNu]; 164 photonDircosu = new G4double[photonNu]; 165 photonDircosv = new G4double[photonNu]; 165 photonDircosv = new G4double[photonNu]; 166 photonDircosw = new G4double[photonNu]; 166 photonDircosw = new G4double[photonNu]; 167 photonAges = new G4double[photonNu]; 167 photonAges = new G4double[photonNu]; 168 for (i=0; i<photonNu; i++) { 168 for (i=0; i<photonNu; i++) { 169 photonEnergies[i] = G4SmpGEng(); 169 photonEnergies[i] = G4SmpGEng(); 170 photonVelocities[i] = G4SmpPVel( 170 photonVelocities[i] = G4SmpPVel( 171 photonEnergies[i], 171 photonEnergies[i], 172 &(photonDircosu[i]), 172 &(photonDircosu[i]), 173 &(photonDircosv[i]), 173 &(photonDircosv[i]), 174 &(photonDircosw[i]) 174 &(photonDircosw[i]) 175 ); 175 ); 176 photonAges[i] = time; 176 photonAges[i] = time; 177 } 177 } 178 } 178 } 179 } 179 } 180 180 181 G4fissionEvent::~G4fissionEvent() { 181 G4fissionEvent::~G4fissionEvent() { 182 if (neutronNu > 0) { 182 if (neutronNu > 0) { 183 delete [] neutronEnergies; 183 delete [] neutronEnergies; 184 delete [] neutronVelocities; 184 delete [] neutronVelocities; 185 delete [] neutronDircosu; 185 delete [] neutronDircosu; 186 delete [] neutronDircosv; 186 delete [] neutronDircosv; 187 delete [] neutronDircosw; 187 delete [] neutronDircosw; 188 delete [] neutronAges; 188 delete [] neutronAges; 189 } 189 } 190 190 191 if (photonNu > 0) { 191 if (photonNu > 0) { 192 delete [] photonEnergies; 192 delete [] photonEnergies; 193 delete [] photonVelocities; 193 delete [] photonVelocities; 194 delete [] photonDircosu; 194 delete [] photonDircosu; 195 delete [] photonDircosv; 195 delete [] photonDircosv; 196 delete [] photonDircosw; 196 delete [] photonDircosw; 197 delete [] photonAges; 197 delete [] photonAges; 198 } 198 } 199 } 199 } 200 200