W-2. 平板状のウランコンバータを線源とした時の鉄体系中の 中性子スペクトル 問題識別番号:PSMC-SH-A01 (小田野直光、植木紘太郎) 入力データ(小田野直光) winfrith iron neutron deep penetration : JENDL 3.2 1 1 6.027e-2 2 -3 -61 $ alumi 2 2 8.326e-2 3 -4 -61 $ graphite 3 1 5.514e-2 4 -5 -61 $ alumi 4 1 6.029e-2 5 -6 -61 $ alumi 5 3 8.484e-2 6 -7 -61 $ mild steel 6 3 8.483e-2 8 -9 -61 $ mild steel 7 1 6.028e-2 9 -10 -61 $ alumi 8 1 4.072e-2 10 -11 -61 $ alumi 9 6 8.486e-2 11 -12 -62 $ iron 10 99 -0.00129 12 -13 -62 $ air 11 6 8.486e-2 13 -14 -62 $ iron 12 99 -0.00129 14 -15 -62 $ air 13 6 8.486e-2 15 -16 -62 $ iron 14 99 -0.00129 16 -17 -62 $ air 15 6 8.486e-2 17 -18 -62 $ iron 16 99 -0.00129 18 -19 -62 $ air 17 6 8.486e-2 19 -20 -62 $ iron 18 99 -0.00129 20 -21 -62 $ air 19 6 8.486e-2 21 -22 -62 $ iron 20 99 -0.00129 22 -23 -62 $ air 21 6 8.486e-2 23 -24 -62 $ iron 22 99 -0.00129 24 -25 -62 $ air 23 6 8.486e-2 25 -26 -62 $ iron 24 99 -0.00129 26 -27 -62 $ air 25 6 8.486e-2 27 -28 -62 $ iron 26 99 -0.00129 28 -29 -62 $ air 27 6 8.486e-2 29 -30 -62 $ iron 28 99 -0.00129 30 -31 -62 $ air 29 6 8.486e-2 31 -32 -62 $ iron 30 99 -0.00129 32 -33 -62 $ air 31 6 8.486e-2 33 -34 -62 $ iron 32 99 -0.00129 34 -35 -62 $ air 33 6 8.486e-2 35 -36 -62 $ iron 34 99 -0.00129 36 -37 -62 $ air 35 6 8.486e-2 37 -38 -62 $ iron 36 99 -0.00129 38 -39 -62 $ air 37 6 8.486e-2 39 -40 -62 $ iron 38 99 -0.00129 40 -41 -62 $ air 39 6 8.486e-2 41 -42 -62 $ iron 40 99 -0.00129 42 -43 -62 $ air 41 6 8.484e-2 43 -44 -62 $ iron 42 99 -0.00129 44 -45 -62 $ air 43 6 8.486e-2 45 -46 -62 $ iron 44 99 -0.00129 46 -47 -62 $ air 45 6 8.486e-2 47 -48 -62 $ iron 46 99 -0.00129 48 -49 -62 $ air 47 6 8.486e-2 49 -50 -62 $ iron 48 99 -0.00129 50 -51 -62 $ air 49 6 8.486e-2 51 -52 -62 $ iron 50 99 -0.00129 52 -53 -62 $ air 51 6 8.486e-2 53 -54 -62 $ iron 52 99 -0.00129 54 -55 -62 $ air 53 6 8.486e-2 55 -56 -62 $ iron 54 99 -0.00129 56 -57 -62 $ air 55 6 8.486e-2 57 -58 -62 $ iron 56 99 -0.00129 58 -59 -62 $ air 57 6 8.486e-2 59 -64 -62 $ iron c 58 4 8.130e-2 64 -60 -62 $ concrete c 59 4 8.130e-2 1 -2 -63 $ concrete 60 4 8.130e-2 2 -11 61 -63 $ concrete 61 4 8.130e-2 11 -60 62 -63 $ concrete 62 0 (-1 : 60 : 63 ) $ out world c 63 5 4.733e-2 7 -8 -131 $ u-converter 64 5 4.733e-2 7 -8 131 -132 $ u-converter 65 5 4.733e-2 7 -8 132 -133 $ u-converter 66 5 4.733e-2 7 -8 133 -134 $ u-converter 67 5 4.733e-2 7 -8 134 -135 $ u-converter 68 5 4.733e-2 7 -8 135 -136 $ u-converter 69 5 4.733e-2 7 -8 136 -137 $ u-converter 70 5 4.733e-2 7 -8 137 -138 $ u-converter 71 5 4.733e-2 7 -8 138 -139 $ u-converter 72 5 4.733e-2 7 -8 139 -140 $ u-converter 73 5 4.733e-2 7 -8 140 -141 $ u-converter 74 5 4.733e-2 7 -8 141 -142 $ u-converter 75 5 4.733e-2 7 -8 142 -143 $ u-converter 76 5 4.733e-2 7 -8 143 -144 $ u-converter 77 5 4.733e-2 7 -8 144 -145 $ u-converter 78 5 4.733e-2 7 -8 145 -146 $ u-converter 79 5 4.733e-2 7 -8 146 -147 $ u-converter 80 5 4.733e-2 7 -8 147 -148 $ u-converter 81 5 4.733e-2 7 -8 148 -149 $ u-converter 82 5 4.733e-2 7 -8 149 -150 $ u-converter 83 5 4.733e-2 7 -8 150 -151 $ u-converter 84 5 4.733e-2 7 -8 151 -152 $ u-converter 85 5 4.733e-2 7 -8 152 -153 $ u-converter 86 5 4.733e-2 7 -8 153 -154 $ u-converter 87 5 4.733e-2 7 -8 154 -155 $ u-converter 88 5 4.733e-2 7 -8 155 -156 $ u-converter 89 5 4.733e-2 7 -8 156 -157 $ u-converter 90 5 4.733e-2 7 -8 157 -158 $ u-converter 91 5 4.733e-2 7 -8 158 -159 $ u-converter 92 5 4.733e-2 7 -8 159 -160 $ u-converter 93 5 4.733e-2 7 -8 160 -161 $ u-converter 94 5 4.733e-2 7 -8 161 -162 $ u-converter 95 5 4.733e-2 7 -8 162 -163 $ u-converter 96 5 4.733e-2 7 -8 163 -164 $ u-converter 97 5 4.733e-2 7 -8 164 -165 $ u-converter 98 5 4.733e-2 7 -8 165 -166 $ u-converter 99 5 4.733e-2 7 -8 166 -167 $ u-converter 100 5 4.733e-2 7 -8 167 -168 $ u-converter 101 5 4.733e-2 7 -8 168 -169 $ u-converter 102 5 4.733e-2 7 -8 169 -170 $ u-converter 103 5 4.733e-2 7 -8 170 -171 $ u-converter 104 5 4.733e-2 7 -8 171 -172 $ u-converter 105 5 4.733e-2 7 -8 172 -173 $ u-converter 106 5 4.733e-2 7 -8 173 -174 $ u-converter 107 5 4.733e-2 7 -8 174 -175 $ u-converter 108 5 4.733e-2 7 -8 175 -176 $ u-converter 109 5 4.733e-2 7 -8 176 -177 $ u-converter 110 5 4.733e-2 7 -8 177 -178 $ u-converter 111 5 4.733e-2 7 -8 178 -179 $ u-converter 112 5 4.733e-2 7 -8 179 -180 $ u-converter 113 5 4.733e-2 7 -8 180 -181 $ u-converter 114 5 4.733e-2 7 -8 181 -182 $ u-converter 115 5 4.733e-2 7 -8 182 -183 $ u-converter 116 5 4.733e-2 7 -8 183 -184 $ u-converter 117 5 4.733e-2 7 -8 184 -185 $ u-converter 118 5 4.733e-2 7 -8 185 -186 $ u-converter 119 5 4.733e-2 7 -8 186 -187 $ u-converter 120 5 4.733e-2 7 -8 187 -188 $ u-converter 121 5 4.733e-2 7 -8 188 -189 $ u-converter 122 5 4.733e-2 7 -8 189 -190 $ u-converter 123 5 4.733e-2 7 -8 190 -61 $ out of u-converter 1 pz -25.0 2 pz 0.0 3 pz 0.65 4 pz 31.55 5 pz 32.24 6 pz 32.92 7 pz 33.21 8 pz 33.53 9 pz 33.82 10 pz 34.53 11 pz 38.60 $ front end of the iron slabs 12 pz 43.68 13 pz 44.315 14 pz 49.395 15 pz 50.03 16 pz 55.11 17 pz 55.745 18 pz 60.825 19 pz 61.46 20 pz 66.54 21 pz 67.175 22 pz 72.255 23 pz 72.89 24 pz 77.97 25 pz 78.605 26 pz 83.685 27 pz 84.32 28 pz 89.40 29 pz 90.035 30 pz 95.115 31 pz 95.75 32 pz 100.83 33 pz 101.465 34 pz 106.545 35 pz 107.18 36 pz 112.26 37 pz 112.895 38 pz 117.975 39 pz 118.61 40 pz 123.69 41 pz 124.325 42 pz 129.405 43 pz 130.04 44 pz 135.12 45 pz 135.755 46 pz 140.835 47 pz 141.47 48 pz 146.55 49 pz 147.185 50 pz 152.265 51 pz 152.9 52 pz 157.98 53 pz 158.615 54 pz 163.695 55 pz 164.33 56 pz 169.41 57 pz 170.045 58 pz 175.125 $ back end of the iron slabs 59 pz 175.76 60 pz 225.00 c 61 cz 66.5 62 cz 106.5 63 cz 125.0 c 64 pz 185.0 c 131 cz 1.0 132 cz 2.0 133 cz 3.0 134 cz 4.0 135 cz 5.0 136 cz 6.0 137 cz 7.0 138 cz 8.0 139 cz 9.0 140 cz 10.0 141 cz 11.0 142 cz 12.0 143 cz 13.0 144 cz 14.0 145 cz 15.0 146 cz 16.0 147 cz 17.0 148 cz 18.0 149 cz 19.0 150 cz 20.0 151 cz 21.0 152 cz 22.0 153 cz 23.0 154 cz 24.0 155 cz 25.0 156 cz 26.0 157 cz 27.0 158 cz 28.0 159 cz 29.0 160 cz 30.0 161 cz 31.0 162 cz 32.0 163 cz 33.0 164 cz 34.0 165 cz 35.0 166 cz 36.0 167 cz 37.0 168 cz 38.0 169 cz 39.0 170 cz 40.0 171 cz 41.0 172 cz 42.0 173 cz 43.0 174 cz 44.0 175 cz 45.0 176 cz 46.0 177 cz 47.0 178 cz 48.0 179 cz 49.0 180 cz 50.0 181 cz 51.0 182 cz 52.0 183 cz 53.0 184 cz 54.0 185 cz 55.0 186 cz 56.0 187 cz 57.0 188 cz 58.0 189 cz 59.0 190 cz 60.0 mode n phys:n 20.0 0.0 sdef erg=d1 cel=d2 rad=fcel=d5 pos= 0.0 0.0 33.37 axs= 0 0 1 ext=d3 sc1 1 nestor-watt = 2.27e+7*2.4345(miyu) = 5.5263e+7 sp1 -3 0.988 2.249 c si3 0.16 c # si2 sp2 l c 63 0.459e-3 64 0.183e-2 65 0.4125e-2 66 0.733e-2 67 0.114e-1 68 0.1645e-1 69 0.2235e-1 70 0.291e-1 71 0.368e-1 72 0.453e-1 73 0.547e-1 74 0.649e-1 75 0.760e-1 76 0.878e-1 77 0.1005 78 0.114 79 0.128 80 0.143 81 0.159 82 0.175 83 0.192 84 0.209 85 0.2275 86 0.246 87 0.2655 88 0.285 89 0.306 90 0.326 91 0.348 92 0.369 93 0.391 94 0.413 95 0.436 96 0.459 97 0.482 98 0.505 99 0.528 100 0.551 101 0.575 102 0.598 103 0.622 104 0.645 105 0.668 106 0.691 107 0.714 108 0.7365 109 0.759 110 0.781 111 0.802 112 0.823 113 0.844 114 0.864 115 0.883 116 0.902 117 0.9205 118 0.938 119 0.955 120 0.971 121 0.986 122 1.000 c ds5 s 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 si10 0.0 1.0 si11 1.0 2.0 si12 2.0 3.0 si13 3.0 4.0 si14 4.0 5.0 si15 5.0 6.0 si16 6.0 7.0 si17 7.0 8.0 si18 8.0 9.0 si19 9.0 10.0 si20 10.0 11.0 si21 11.0 12.0 si22 12.0 13.0 si23 13.0 14.0 si24 14.0 15.0 si25 15.0 16.0 si26 16.0 17.0 si27 17.0 18.0 si28 18.0 19.0 si29 19.0 20.0 si30 20.0 21.0 si31 21.0 22.0 si32 22.0 23.0 si33 23.0 24.0 si34 24.0 25.0 si35 25.0 26.0 si36 26.0 27.0 si37 27.0 28.0 si38 28.0 29.0 si39 29.0 30.0 si40 30.0 31.0 si41 31.0 32.0 si42 32.0 33.0 si43 33.0 34.0 si44 34.0 35.0 si45 35.0 36.0 si46 36.0 37.0 si47 37.0 38.0 si48 38.0 39.0 si49 39.0 40.0 si50 40.0 41.0 si51 41.0 42.0 si52 42.0 43.0 si53 43.0 44.0 si54 44.0 45.0 si55 45.0 46.0 si56 46.0 47.0 si57 47.0 48.0 si58 48.0 49.0 si59 49.0 50.0 si60 50.0 51.0 si61 51.0 52.0 si62 52.0 53.0 si63 53.0 54.0 si64 54.0 55.0 si65 55.0 56.0 si66 56.0 57.0 si67 57.0 58.0 si68 58.0 59.0 si69 59.0 60.0 c c f5:n 0.0 0.0 44.00 7.5 $ at 5.4cm depth f15:n 0.0 0.0 44.00 0.0 $ at 5.4cm depth c f25:n 0.0 0.0 61.14 10.0 $ at 22.54cm depth f35:n 0.0 0.0 61.14 0.0 $ at 22.54cm depth c f45:n 0.0 0.0 95.43 15.0 $ at 56.83cm depth f55:n 0.0 0.0 95.43 0.0 $ at 56.83cm depth c f65:n 0.0 0.0 124.01 17.5 $ at 85.83cm depth f75:n 0.0 0.0 124.01 0.0 $ at 85.83cm depth c f85:n 0.0 0.0 152.60 20.0 $ at 114.0cm depth f95:n 0.0 0.0 152.60 0.0 $ at 114.0cm depth c e0 7.10-3 9.12-3 1.17-2 1.50-2 1.93-2 2.19-2 2.48-2 2.81-2 3.18-2 3.61-2 4.09-2 4.63-2 5.25-2 5.95-2 6.74-2 7.64-2 8.65-2 9.80-2 1.11-1 1.26-1 1.43-1 1.62-1 1.83-1 2.08-1 2.35-1 2.67-1 3.02-1 3.42-1 3.88-1 4.39-1 4.98-1 5.64-1 6.39-1 7.24-1 8.21-1 9.30-1 1.054 1.194 1.353 1.534 1.738 1.969 2.231 2.528 2.865 3.247 3.679 4.169 4.724 5.353 6.065 6.873 7.788 8.825 10.00 10.65 11.33 12.06 12.84 13.67 14.55 15.49 16.49 c c em0 2.852 3.994 4.014 4.025 3.967 7.9125 c 8.041 8.005 8.084 7.885 8.010 8.064 c 7.967 7.990 8.021 7.978 8.054 8.011 c 8.028 7.889 7.901 8.016 8.204 7.809 c 8.1935 7.833 8.118 8.040 7.924 8.0975 c 7.930 8.035 8.0095 8.007 7.953 8.022 c 7.9895 8.018 7.999 7.965 8.009 8.013 c 8.005 8.001 7.991 7.9895 8.006 7.998 c 8.001 8.000 8.008 7.996 8.001 8.000 c 8.000 15.879 16.157 16.015 15.956 15.965 c 16.029 15.9735 15.985 c (1/Unit Lethergy) c em0 1.576+8 2.208+8 2.218+8 2.224+8 2.192+8 4.373+8 4.444+8 4.424+8 4.467+8 4.357+8 4.427+8 4.456+8 4.402+8 4.415+8 4.433+8 4.414+8 4.450+8 4.427+8 4.437+8 4.360+8 4.366+8 4.430+8 4.534+8 4.315+8 4.528+8 4.329+8 4.486+8 4.444+8 4.379+8 4.475+8 4.383+8 4.441+8 4.426+8 4.425+8 4.396+8 4.433+8 4.415+8 4.431+8 4.420+8 4.401+8 4.426+8 4.428+8 4.424+8 4.422+8 4.416+8 4.415+8 4.424+8 4.420+8 4.422+8 4.421+8 4.426+8 4.419+8 4.422+8 4.421+8 4.421+8 8.769+8 8.928+8 8.850+8 8.816+8 8.822+8 8.858+8 8.827+8 8.829+8 c (1/Unit Lethergy)/Source Neutrons: 5.5263x10**7 c c rh(n,n') reaction rate c fm15 5.6296e+7 10 51 $ Rh(n,n') c fm35 5.6296e+7 10 51 $ Rh(n,n') c fm55 5.6296e+7 10 51 $ Rh(n,n') c fm75 5.6296e+7 10 51 $ Rh(n,n') c fm95 5.6296e+7 10 51 $ Rh(n,n') c c aluminum m1 13027.37 1.0 c m101 13027.04 1.0 c graphite m2 6012.37 1.0 c m102 6012.10 1.0 c mild steel m3 6012.37 0.01060 25055.37 0.00752 26000.37 0.98188 c m103 6012.10 0.01060 25055.01 0.00752 26000.11 0.98188 c concrete m4 1001.37 0.17000 8016.37 0.56800 11023.37 0.01000 13027.37 0.02200 14000.37 0.21000 19000.37 0.00700 20000.37 0.02000 26000.37 0.00430 c m104 1001.04 0.17000 8016.04 0.56800 11023.01 0.01000 13027.04 0.02200 14000.02 0.21000 19000.31 0.00700 20000.10 0.02000 26000.11 0.00430 c u-converter m5 92235.37 0.00720 92238.37 0.99280 c m105 92235.09 0.00720 92238.12 0.99280 c m6 1001.37c 0.00027 $ JENDL 3.2 (steel) 6012.37c 0.01060 25055.37c 0.00751 26000.37c 0.98162 $ JENDL 3.2 (steel) c m61 1001.37c 0.00027 $ JENDL fusion (steel) 6012.37c 0.01060 25055.37c 0.00751 26000.41c 0.98162 $ JENDL Fusion (steel) c m62 1001.60c 0.00027 $ ENDF/B-VI (steel) 6000.60c 0.01060 25055.60c 0.00751 c 26000 0.98162 26054.60c 0.05693 $ Natural Abundance 5.8 % in ENDF/B-VI (steel) 26056.60c 0.90113 $ Natural Abundance 91.8 % in ENDF/B-VI (steel) 26057.60c 0.02110 $ Natural Abundance 2.15 % in ENDF/B-VI (steel) 26058.60c 0.00245 $ Natural Abundance 0.25 % in ENDF/B-VI (steel) c m106 1001.04 0.00027 $ ENDF/B-IV 6012.10 0.01060 25055.01 0.00751 26000.11 0.98162 $ ENDF/B-IV c al(n,a) reaction rate m7 13027.30y 1.0 c s(n,p) reaction rate m8 16032.30y 1.0 c in(n,n') reaction rate m9 49115.03y 1.0 c rh(n,n') reaction rate m10 45103.03y 1.0 c au(n,gamma) reaction rate m11 79197.03y 1.0 c water (1.00275e-1) m12 1001.37 0.66667 8016.37 0.33333 c pure iron (7.86g/cm**3) m13 26000.37 1.0 c m99 7014.37c 1.054e+19 $ air JENDL 8016.37c 3.910e+19 $ air JENDL c m100 7014.60c 1.054e+19 $ air ENDF/B-VI 8016.60c 3.910e+19 $ air ENDF/B-VI c wwe:n 7.0e-3 0.72 20.0 c wwn1:n 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 0.750m r 0.750m r 0.750m r 0.750m r 0.750m r 0.750m r 0.750m r 0.750m r 0.750m r 0.750m r 0.750m r 0.750m r 0.750m r 0.750m r 0.750m r 0.750m r 0.750m r 0.750m r 0.750m r 0.750m r 0.750m r 0.750m r 0.750m r 0.750m r 0.750m r 0.1 0.1 0.01 -1 1.0 60r wwn2:n 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 0.775m r 0.775m r 0.775m r 0.775m r 0.775m r 0.775m r 0.775m r 0.775m r 0.775m r 0.775m r 0.775m r 0.775m r 0.775m r 0.775m r 0.775m r 0.775m r 0.775m r 0.775m r 0.775m r 0.775m r 0.775m r 0.775m r 0.775m r 0.775m r 0.775m r 0.1 0.1 0.01 -1 1.0 60r wwn3:n 1.0 1.0 1.0 1.0 1.0 1.0 1.0 0.25 0.725m r 0.725m r 0.725m r 0.725m r 0.725m r 0.725m r 0.725m r 0.725m r 0.725m r 0.725m r 0.725m r 0.725m r 0.725m r 0.725m r 0.725m r 0.725m r 0.725m r 0.725m r 0.725m r 0.725m r 0.725m r 0.725m r 0.725m r 0.725m r 0.725m r 0.1 0.1 0.01 -1 1.0 60r c wwp:n 5 3 5 0 0 c cut:n j 5.0e-3 c nps 10000000 prdmp 10000000 c CTME 5 DBCN 34567890123 totnu nonu print 110