{"id":1061,"date":"2024-10-09T16:13:05","date_gmt":"2024-10-09T14:13:05","guid":{"rendered":"https:\/\/lpsc-wordpress.in2p3.fr\/?page_id=1061"},"modified":"2024-10-11T20:24:49","modified_gmt":"2024-10-11T18:24:49","slug":"ucn-potentiels","status":"publish","type":"page","link":"https:\/\/lpsc-wordpress.in2p3.fr\/?page_id=1061","title":{"rendered":"UCN &#8211; Potentiels"},"content":{"rendered":"\n\n\n<p class=\"wp-block-paragraph\">Outil de calcul des potentiels de Fermi et des longueurs d&rsquo;interaction dans des mat\u00e9riaux purs ou composites.<\/p>\n\n\n\n<html>\n<head>\n<main>\n<div class=\"com-content-article item-page\">\n<meta itemprop=\"inLanguage\" content=\"fr-FR\">\n<div class=\"com-content-article__body\">\n<script language=\"JavaScript\" type=\"text\/javascript\">\n \t\n\/\/ ==============\n\/\/ UCN INTERACTOR\n\/\/ ==============\n\nvar _NEUTRONDATA = new Array();\n_NEUTRONDATA [  0  ]={ element: '1H'  , mass :  1 ,slength :  -3.7423 , errslength :  0.0012, xscoh : 1.7583, xsinc : 80.27 , xstot : 82.03 , xsabs :   0.3326    };\n_NEUTRONDATA [  1  ]={ element: '2H'  , mass :  2 ,slength :  6.674   , errslength :  0.006 , xscoh : 5.592 , xsinc : 2.05  , xstot : 7.64  , xsabs :   0.000519   };\n_NEUTRONDATA [  2  ]={ element: '3H'  , mass :  3 ,slength :  4.792   , errslength :  0.027 , xscoh : 2.89  , xsinc : 0.14  , xstot : 3.03  , xsabs :   0.000006  };\n_NEUTRONDATA [  3  ]={ element: '3He' , mass :  3 ,slength :  5.74  , errslength :  0.07  , xscoh :   4.42  , xsinc :   1.6 , xstot :   6 , xsabs :   5333  };\n_NEUTRONDATA [  4  ]={ element: '4He' , mass :  4 ,slength :  3.26  , errslength :  0.03  , xscoh :   1.34  , xsinc :   0 , xstot :   1.34  , xsabs :   0 };\n_NEUTRONDATA [  5  ]={ element: '6Li' , mass :  6 ,slength :  2 , errslength :  0.1 , xscoh :   0.51  , xsinc :   0.46  , xstot :   0.97  , xsabs :   940 };\n_NEUTRONDATA [  6  ]={ element: '7Li' , mass :  7 ,slength :  -2.22 , errslength :  0.02  , xscoh :   0.619 , xsinc :   0.78  , xstot :   1.4 , xsabs :   0.0454  };\n_NEUTRONDATA [  7  ]={ element: '9Be' , mass :  9 ,slength :  7.79  , errslength :  0.01  , xscoh :   7.63  , xsinc :   0.0018  , xstot :   7.63  , xsabs :   0.0076  };\n_NEUTRONDATA [  8  ]={ element: '10B' , mass :  10  ,slength :  -0.2  , errslength :  0.04 , xscoh :   0.144 , xsinc :   3 , xstot :   3.1 , xsabs :   3835  };\n_NEUTRONDATA [  9  ]={ element: '11B' , mass :  11  ,slength :  6.65  , errslength :  0.04  , xscoh :   5.56  , xsinc :   0.21  , xstot :   5.77  , xsabs :   0.0055  };\n_NEUTRONDATA [  10   ]={ element: '12C' , mass :  12  ,slength :  6.6535  , errslength :  0.0014  , xscoh :   5.559 , xsinc :   0 , xstot :   5.559 , xsabs :   0.00353 };\n_NEUTRONDATA [  11   ]={ element: '13C' , mass :  13  ,slength :  6.19  , errslength :  0.09  , xscoh :   4.81  , xsinc :   0.034 , xstot :   4.84  , xsabs :   0.00137 };\n_NEUTRONDATA [  12   ]={ element: '14N' , mass :  14  ,slength :  9.37  , errslength :  0.02  , xscoh :   11.03 , xsinc :   0.5 , xstot :   11.53 , xsabs :   1.91  };\n_NEUTRONDATA [  13   ]={ element: '15N' , mass :  15  ,slength :  6.44  , errslength :  0.03  , xscoh :   5.21  , xsinc :   0.00005 , xstot :   5.21  , xsabs :   0.000024  };\n_NEUTRONDATA [  14   ]={ element: '16O' , mass :  16  ,slength :  5.805 , errslength :  0.005 , xscoh :   4.232 , xsinc :   0 , xstot :   4.232 , xsabs :   0.0001  };\n_NEUTRONDATA [  15   ]={ element: '17O' , mass :  17  ,slength :  5.6 , errslength :  0.5 , xscoh :   4.2 , xsinc :   0.004 , xstot :   4.2 , xsabs :   0.236 };\n_NEUTRONDATA [  16   ]={ element: '18O' , mass :  18  ,slength :  5.84  , errslength :  0.07  , xscoh :   4.29  , xsinc :   0 , xstot :   4.29  , xsabs :   0.00016 };\n_NEUTRONDATA [  17   ]={ element: '19F' , mass :  19  ,slength :  5.654 , errslength :  0.012 , xscoh :   4.017 , xsinc :   0.0008  , xstot :   4.018 , xsabs :   0.0096  };\n_NEUTRONDATA [  18   ]={ element: '20Ne'  , mass :  20  ,slength :  4.631 , errslength :  0.006 , xscoh :   2.695 , xsinc :   0 , xstot :   2.695 , xsabs :   0.036 };\n_NEUTRONDATA [  19   ]={ element: '21Ne'  , mass :  21  ,slength :  6.66  , errslength :  0.19  , xscoh :   5.6 , xsinc :   0.05  , xstot :   5.7 , xsabs :   0.67  };\n_NEUTRONDATA [  20   ]={ element: '22Ne'  , mass :  22  ,slength :  3.87  , errslength :  0.01  , xscoh :   1.88  , xsinc :   0 , xstot :   1.88  , xsabs :   0.046 };\n_NEUTRONDATA [  21   ]={ element: '23Na'  , mass :  23  ,slength :  3.63  , errslength :  0.02  , xscoh :   1.66  , xsinc :   1.62  , xstot :   3.28  , xsabs :   0.53  };\n_NEUTRONDATA [  22   ]={ element: '24Mg'  , mass :  24  ,slength :  5.49  , errslength :  0.18  , xscoh :   4.03  , xsinc :   0 , xstot :   4.03  , xsabs :   0.05  };\n_NEUTRONDATA [  23   ]={ element: '25Mg'  , mass :  25  ,slength :  3.62  , errslength :  0.14  , xscoh :   1.65  , xsinc :   0.28  , xstot :   1.93  , xsabs :   0.19  };\n_NEUTRONDATA [  24   ]={ element: '26Mg'  , mass :  26  ,slength :  4.89  , errslength :  0.15  , xscoh :   3 , xsinc :   0 , xstot :   3 , xsabs :   0.0382  };\n_NEUTRONDATA [  25   ]={ element: '27Al'  , mass :  27  ,slength :  3.449 , errslength :  0.005 , xscoh :   1.495 , xsinc :   0.0082  , xstot :   1.503 , xsabs :   0.231 };\n_NEUTRONDATA [  26   ]={ element: '28Si'  , mass :  28  ,slength :  4.106 , errslength :  0.006 , xscoh :   2.12  , xsinc :   0 , xstot :   2.12  , xsabs :   0.177 };\n_NEUTRONDATA [  27   ]={ element: '29Si'  , mass :  29  ,slength :  4.7 , errslength :  0.1 , xscoh :   2.78  , xsinc :   0.001 , xstot :   2.78  , xsabs :   0.101 };\n_NEUTRONDATA [  28   ]={ element: '30Si'  , mass :  30  ,slength :  4.58  , errslength :  0.08  , xscoh :   2.64  , xsinc :   0 , xstot :   2.64  , xsabs :   0.107 };\n_NEUTRONDATA [  29   ]={ element: '31P' , mass :  31  ,slength :  5.13  , errslength :  0.01  , xscoh :   3.307 , xsinc :   0.005 , xstot :   3.312 , xsabs :   0.54  };\n_NEUTRONDATA [  30   ]={ element: '32S' , mass :  32  ,slength :  2.804 , errslength :  0.002 , xscoh :   0.988 , xsinc :   0 , xstot :   0.988 , xsabs :   0.172 };\n_NEUTRONDATA [  31   ]={ element: '33S' , mass :  33  ,slength :  4.74  , errslength :  0.19  , xscoh :   2.8 , xsinc :   0.3 , xstot :   3.1 , xsabs :   0.54  };\n_NEUTRONDATA [  32   ]={ element: '34S' , mass :  34  ,slength :  3.48  , errslength :  0.03  , xscoh :   1.52  , xsinc :   0 , xstot :   1.52  , xsabs :   0.227 };\n_NEUTRONDATA [  33   ]={ element: '36S' , mass :  36  ,slength :  3 , errslength :  1 , xscoh :   1.1 , xsinc :   0 , xstot :   1.1 , xsabs :   0.15  };\n_NEUTRONDATA [  34   ]={ element: '35Cl'  , mass :  35  ,slength :  11.7  , errslength :  0.09  , xscoh :   17.06 , xsinc :   4.7 , xstot :   21.8  , xsabs :   44.1  };\n_NEUTRONDATA [  35   ]={ element: '37Cl'  , mass :  37  ,slength :  3.08  , errslength :  0.06  , xscoh :   1.19  , xsinc :   0.001 , xstot :   1.19  , xsabs :   0.433 };\n_NEUTRONDATA [  36   ]={ element: '36Ar'  , mass :  36  ,slength :  24.9  , errslength :  0.07  , xscoh :   77.9  , xsinc :   0 , xstot :   77.9  , xsabs :   5.2 };\n_NEUTRONDATA [  37   ]={ element: '38Ar'  , mass :  38  ,slength :  3.5 , errslength :  3.5 , xscoh :   1.5 , xsinc :   0 , xstot :   1.5 , xsabs :   0.8 };\n_NEUTRONDATA [  38   ]={ element: '40Ar'  , mass :  40  ,slength :  1.84  , errslength :  0.03  , xscoh :   0.421 , xsinc :   0 , xstot :   0.421 , xsabs :   0.66  };\n_NEUTRONDATA [  39   ]={ element: '39K' , mass :  39  ,slength :  3.79  , errslength :  0.02  , xscoh :   1.76  , xsinc :   0.25  , xstot :   2.01  , xsabs :   2.1 };\n_NEUTRONDATA [  40   ]={ element: '40K' , mass :  40  ,slength :  3.1 , errslength :  1 , xscoh :   1.1 , xsinc :   0.5 , xstot :   1.6 , xsabs :   35  };\n_NEUTRONDATA [  41   ]={ element: '41K' , mass :  41  ,slength :  2.69  , errslength :  0.08  , xscoh :   0.91  , xsinc :   0.3 , xstot :   1.2 , xsabs :   1.46  };\n_NEUTRONDATA [  42   ]={ element: '40Ca'  , mass :  40  ,slength :  4.78  , errslength :  0.05  , xscoh :   2.9 , xsinc :   0 , xstot :   2.9 , xsabs :   0.41  };\n_NEUTRONDATA [  43   ]={ element: '42Ca'  , mass :  42  ,slength :  3.36  , errslength :  0.1 , xscoh :   1.42  , xsinc :   0 , xstot :   1.42  , xsabs :   0.68  };\n_NEUTRONDATA [  44   ]={ element: '43Ca'  , mass :  43  ,slength :  -1.56 , errslength :  0.09  , xscoh :   0.31  , xsinc :   0.5 , xstot :   0.8 , xsabs :   6.2 };\n_NEUTRONDATA [  45   ]={ element: '44Ca'  , mass :  44  ,slength :  1.42  , errslength :  0.06  , xscoh :   0.25  , xsinc :   0 , xstot :   0.25  , xsabs :   0.88  };\n_NEUTRONDATA [  46   ]={ element: '46Ca'  , mass :  46  ,slength :  3.55  , errslength :  0.21  , xscoh :   1.6 , xsinc :   0 , xstot :   1.6 , xsabs :   0.74  };\n_NEUTRONDATA [  47   ]={ element: '48Ca'  , mass :  48  ,slength :  0.39  , errslength :  0.09  , xscoh :   0.019 , xsinc :   0 , xstot :   0.019 , xsabs :   1.09  };\n_NEUTRONDATA [  48   ]={ element: '45Sc'  , mass :  45  ,slength :  12.1  , errslength :  0.1 , xscoh :   19  , xsinc :   4.5 , xstot :   23.5  , xsabs :   27.5  };\n_NEUTRONDATA [  49   ]={ element: '46Ti'  , mass :  46  ,slength :  4.72  , errslength :  0.05  , xscoh :   3.05  , xsinc :   0 , xstot :   3.05  , xsabs :   0.59  };\n_NEUTRONDATA [  50   ]={ element: '47Ti'  , mass :  47  ,slength :  3.53  , errslength :  0.07  , xscoh :   1.66  , xsinc :   1.5 , xstot :   3.2 , xsabs :   1.7 };\n_NEUTRONDATA [  51   ]={ element: '48Ti'  , mass :  48  ,slength :  -5.86 , errslength :  0.02  , xscoh :   4.65  , xsinc :   0 , xstot :   4.65  , xsabs :   7.84  };\n_NEUTRONDATA [  52   ]={ element: '49Ti'  , mass :  49  ,slength :  0.98  , errslength :  0.05  , xscoh :   0.14  , xsinc :   3.3 , xstot :   3.4 , xsabs :   2.2 };\n_NEUTRONDATA [  53   ]={ element: '50Ti'  , mass :  50  ,slength :  5.88  , errslength :  0.1 , xscoh :   4.8 , xsinc :   0 , xstot :   4.8 , xsabs :   0.179 };\n_NEUTRONDATA [  54   ]={ element: '50V' , mass :  50  ,slength :  7.6 , errslength :  0.4 , xscoh :   7.3 , xsinc :   0.5 , xstot :   7.8 , xsabs :   60  };\n_NEUTRONDATA [  55   ]={ element: '51V' , mass :  51  ,slength :  -0.402  , errslength :  0.21  , xscoh :   0.0203  , xsinc :   5.07  , xstot :   5.09  , xsabs :   4.9 };\n_NEUTRONDATA [  56   ]={ element: '50Cr'  , mass :  50  ,slength :  -4.5  , errslength :  0.05  , xscoh :   2.54  , xsinc :   0 , xstot :   2.54  , xsabs :   15.8  };\n_NEUTRONDATA [  57   ]={ element: '52Cr'  , mass :  52  ,slength :  4.914 , errslength :  0.015 , xscoh :   3.042 , xsinc :   0 , xstot :   3.042 , xsabs :   0.76  };\n_NEUTRONDATA [  58   ]={ element: '53Cr'  , mass :  53  ,slength :  -4.2  , errslength :  0.03  , xscoh :   2.22  , xsinc :   5.93  , xstot :   8.15  , xsabs :   18.1  };\n_NEUTRONDATA [  59   ]={ element: '54Cr'  , mass :  54  ,slength :  4.55  , errslength :  0.1 , xscoh :   2.6 , xsinc :   0 , xstot :   2.6 , xsabs :   0.36  };\n_NEUTRONDATA [  60   ]={ element: '55Mn'  , mass :  55  ,slength :  -3.75 , errslength :  0.018 , xscoh :   1.75  , xsinc :   0.4 , xstot :   2.15  , xsabs :   13.3  };\n_NEUTRONDATA [  61   ]={ element: '54Fe'  , mass :  54  ,slength :  4.2 , errslength :  0.1 , xscoh :   2.2 , xsinc :   0 , xstot :   2.2 , xsabs :   2.25  };\n_NEUTRONDATA [  62   ]={ element: '56Fe'  , mass :  56  ,slength :  10.1  , errslength :  0.2 , xscoh :   12.42 , xsinc :   0 , xstot :   12.42 , xsabs :   2.59  };\n_NEUTRONDATA [  63   ]={ element: '57Fe'  , mass :  57  ,slength :  2.3 , errslength :  0.1 , xscoh :   0.66  , xsinc :   0.3 , xstot :   1 , xsabs :   2.48  };\n_NEUTRONDATA [  64   ]={ element: '58Fe'  , mass :  58  ,slength :  15  , errslength :  7 , xscoh :   28  , xsinc :   0 , xstot :   28  , xsabs :   1.28  };\n_NEUTRONDATA [  65   ]={ element: '59Co'  , mass :  59  ,slength :  2.49  , errslength :  0.02  , xscoh :   0.779 , xsinc :   4.8 , xstot :   5.6 , xsabs :   37.18 };\n_NEUTRONDATA [  66   ]={ element: '58Ni'  , mass :  58  ,slength :  14.4  , errslength :  0.1 , xscoh :   26.1  , xsinc :   0 , xstot :   26.1  , xsabs :   4.6 };\n_NEUTRONDATA [  67   ]={ element: '60Ni'  , mass :  60  ,slength :  2.8 , errslength :  0.1 , xscoh :   0.99  , xsinc :   0 , xstot :   0.99  , xsabs :   2.9 };\n_NEUTRONDATA [  68   ]={ element: '61Ni'  , mass :  61  ,slength :  7.6 , errslength :  0.06  , xscoh :   7.26  , xsinc :   1.9 , xstot :   9.2 , xsabs :   2.5 };\n_NEUTRONDATA [  69   ]={ element: '62Ni'  , mass :  62  ,slength :  -8.7  , errslength :  0.2 , xscoh :   9.5 , xsinc :   0 , xstot :   9.5 , xsabs :   14.5  };\n_NEUTRONDATA [  70   ]={ element: '64Ni'  , mass :  64  ,slength :  -0.37 , errslength :  0.07  , xscoh :   0.017 , xsinc :   0 , xstot :   0.017 , xsabs :   1.52  };\n_NEUTRONDATA [  71   ]={ element: '63Cu'  , mass :  63  ,slength :  6.477 , errslength :  0.013 , xscoh :   5.2 , xsinc :   0.006 , xstot :   5.2 , xsabs :   4.5 };\n_NEUTRONDATA [  72   ]={ element: '65Cu'  , mass :  65  ,slength :  10.204  , errslength :  0.02  , xscoh :   14.1  , xsinc :   0.4 , xstot :   14.5  , xsabs :   2.17  };\n_NEUTRONDATA [  73   ]={ element: '64Zn'  , mass :  64  ,slength :  5.23  , errslength :  0.04  , xscoh :   3.42  , xsinc :   0 , xstot :   3.42  , xsabs :   0.93  };\n_NEUTRONDATA [  74   ]={ element: '66Zn'  , mass :  66  ,slength :  5.98  , errslength :  0.05  , xscoh :   4.48  , xsinc :   0 , xstot :   4.48  , xsabs :   0.62  };\n_NEUTRONDATA [  75   ]={ element: '67Zn'  , mass :  67  ,slength :  7.58  , errslength :  0.08  , xscoh :   7.18  , xsinc :   0.28  , xstot :   7.46  , xsabs :   6.8 };\n_NEUTRONDATA [  76   ]={ element: '68Zn'  , mass :  68  ,slength :  6.04  , errslength :  0.03  , xscoh :   4.57  , xsinc :   0 , xstot :   4.57  , xsabs :   1.1 };\n_NEUTRONDATA [  77   ]={ element: '70Zn'  , mass :  70  ,slength :  6 , errslength :  1 , xscoh :   4.5 , xsinc :   0 , xstot :   4.5 , xsabs :   0.092 };\n_NEUTRONDATA [  78   ]={ element: '69Ga'  , mass :  69  ,slength :  8.053 , errslength :  0.016 , xscoh :   7.8 , xsinc :   0.091 , xstot :   7.89  , xsabs :   2.18  };\n_NEUTRONDATA [  79   ]={ element: '71Ga'  , mass :  71  ,slength :  6.17  , errslength :  0.011 , xscoh :   5.15  , xsinc :   0.084 , xstot :   5.23  , xsabs :   3.61  };\n_NEUTRONDATA [  80   ]={ element: '70Ge'  , mass :  70  ,slength :  10  , errslength :  0.1 , xscoh :   12.6  , xsinc :   0 , xstot :   12.6  , xsabs :   3 };\n_NEUTRONDATA [  81   ]={ element: '72Ge'  , mass :  72  ,slength :  8.51  , errslength :  0.1 , xscoh :   9.1 , xsinc :   0 , xstot :   9.1 , xsabs :   0.8 };\n_NEUTRONDATA [  82   ]={ element: '73Ge'  , mass :  73  ,slength :  5.02  , errslength :  0.04  , xscoh :   3.17  , xsinc :   1.5 , xstot :   4.7 , xsabs :   15.1  };\n_NEUTRONDATA [  83   ]={ element: '74Ge'  , mass :  74  ,slength :  7.58  , errslength :  0.1 , xscoh :   7.2 , xsinc :   0 , xstot :   7.2 , xsabs :   0.4 };\n_NEUTRONDATA [  84   ]={ element: '76Ge'  , mass :  76  ,slength :  8.2 , errslength :  1.5 , xscoh :   8 , xsinc :   0 , xstot :   8 , xsabs :   0.16  };\n_NEUTRONDATA [  85   ]={ element: '75As'  , mass :  75  ,slength :  6.58  , errslength :  0.01  , xscoh :   5.44  , xsinc :   0.06  , xstot :   5.5 , xsabs :   4.5 };\n_NEUTRONDATA [  86   ]={ element: '74Se'  , mass :  74  ,slength :  0.8 , errslength :  3 , xscoh :   0.1 , xsinc :   0 , xstot :   0.1 , xsabs :   51.8  };\n_NEUTRONDATA [  87   ]={ element: '76Se'  , mass :  76  ,slength :  12.2  , errslength :  0.1 , xscoh :   18.7  , xsinc :   0 , xstot :   18.7  , xsabs :   85  };\n_NEUTRONDATA [  88   ]={ element: '77Se'  , mass :  77  ,slength :  8.25  , errslength :  0.08  , xscoh :   8.6 , xsinc :   0.05  , xstot :   8.65  , xsabs :   42  };\n_NEUTRONDATA [  89   ]={ element: '78Se'  , mass :  78  ,slength :  8.24  , errslength :  0.09  , xscoh :   8.5 , xsinc :   0 , xstot :   8.5 , xsabs :   0.43  };\n_NEUTRONDATA [  90   ]={ element: '80Se'  , mass :  80  ,slength :  7.48  , errslength :  0.03  , xscoh :   7.03  , xsinc :   0 , xstot :   7.03  , xsabs :   0.61  };\n_NEUTRONDATA [  91   ]={ element: '82Se'  , mass :  82  ,slength :  6.34  , errslength :  0.08  , xscoh :   5.05  , xsinc :   0 , xstot :   5.05  , xsabs :   0.044 };\n_NEUTRONDATA [  92   ]={ element: '79Br'  , mass :  79  ,slength :  6.79  , errslength :  0.07  , xscoh :   5.81  , xsinc :   0.15  , xstot :   5.96  , xsabs :   11  };\n_NEUTRONDATA [  93   ]={ element: '81Br'  , mass :  81  ,slength :  6.78  , errslength :  0.07  , xscoh :   5.79  , xsinc :   0.05  , xstot :   5.84  , xsabs :   2.7 };\n_NEUTRONDATA [  94   ]={ element: '78Kr'  , mass :  78  ,slength :  -1  , errslength :  -1  , xscoh :   -1  , xsinc :   -1  , xstot :   -1  , xsabs :   6.4 };\n_NEUTRONDATA [  95   ]={ element: '80Kr'  , mass :  80  ,slength :  -1  , errslength :  -1  , xscoh :   -1  , xsinc :   -1  , xstot :   -1  , xsabs :   11.8  };\n_NEUTRONDATA [  96   ]={ element: '82Kr'  , mass :  82  ,slength :  -1  , errslength :  -1  , xscoh :   -1  , xsinc :   -1  , xstot :   -1  , xsabs :   29  };\n_NEUTRONDATA [  97   ]={ element: '83Kr'  , mass :  83  ,slength :  -1  , errslength :  -1  , xscoh :   -1  , xsinc :   -1  , xstot :   -1  , xsabs :   185 };\n_NEUTRONDATA [  98   ]={ element: '84Kr'  , mass :  84  ,slength :  -1  , errslength :  -1  , xscoh :   -1  , xsinc :   -1  , xstot :   -1  , xsabs :   0.113 };\n_NEUTRONDATA [  99   ]={ element: '86Kr'  , mass :  86  ,slength :  8.07  , errslength :  0.26  , xscoh :   8.2 , xsinc :   0 , xstot :   8.2 , xsabs :   0.003 };\n_NEUTRONDATA [  100  ]={ element: '85Rb'  , mass :  85  ,slength :  7.07  , errslength :  0.1 , xscoh :   6.2 , xsinc :   0.5 , xstot :   6.7 , xsabs :   0.48  };\n_NEUTRONDATA [  101  ]={ element: '87Rb'  , mass :  87  ,slength :  7.27  , errslength :  0.12  , xscoh :   6.6 , xsinc :   0.5 , xstot :   7.1 , xsabs :   0.12  };\n_NEUTRONDATA [  102  ]={ element: '84Sr'  , mass :  84  ,slength :  5 , errslength :  2 , xscoh :   6 , xsinc :   0 , xstot :   6 , xsabs :   0.87  };\n_NEUTRONDATA [  103  ]={ element: '86Sr'  , mass :  86  ,slength :  5.68  , errslength :  0.05  , xscoh :   4.04  , xsinc :   0 , xstot :   4.04  , xsabs :   1.04  };\n_NEUTRONDATA [  104  ]={ element: '87Sr'  , mass :  87  ,slength :  7.41  , errslength :  0.07  , xscoh :   6.88  , xsinc :   0.5 , xstot :   7.4 , xsabs :   16  };\n_NEUTRONDATA [  105  ]={ element: '88Sr'  , mass :  88  ,slength :  7.16  , errslength :  0.06  , xscoh :   6.42  , xsinc :   0 , xstot :   6.42  , xsabs :   0.058 };\n_NEUTRONDATA [  106  ]={ element: '89Y' , mass :  89  ,slength :  7.75  , errslength :  0.02  , xscoh :   7.55  , xsinc :   0.15  , xstot :   7.7 , xsabs :   1.28  };\n_NEUTRONDATA [  107  ]={ element: '90Zr'  , mass :  90  ,slength :  6.5 , errslength :  0.1 , xscoh :   5.1 , xsinc :   0 , xstot :   5.1 , xsabs :   0.011 };\n_NEUTRONDATA [  108  ]={ element: '91Zr'  , mass :  91  ,slength :  8.8 , errslength :  0.1 , xscoh :   9.5 , xsinc :   0.15  , xstot :   9.7 , xsabs :   1.17  };\n_NEUTRONDATA [  109  ]={ element: '92Zr'  , mass :  92  ,slength :  7.5 , errslength :  0.2 , xscoh :   6.9 , xsinc :   0 , xstot :   6.9 , xsabs :   0.22  };\n_NEUTRONDATA [  110  ]={ element: '94Zr'  , mass :  94  ,slength :  8.3 , errslength :  0.2 , xscoh :   8.4 , xsinc :   0 , xstot :   8.4 , xsabs :   0.0499  };\n_NEUTRONDATA [  111  ]={ element: '96Zr'  , mass :  96  ,slength :  5.5 , errslength :  0.1 , xscoh :   3.8 , xsinc :   0 , xstot :   3.8 , xsabs :   0.0229  };\n_NEUTRONDATA [  112  ]={ element: '93Nb'  , mass :  93  ,slength :  7.054 , errslength :  0.003 , xscoh :   6.253 , xsinc :   0.0024  , xstot :   6.255 , xsabs :   1.15  };\n_NEUTRONDATA [  113  ]={ element: '92Mo'  , mass :  92  ,slength :  6.93  , errslength :  0.08  , xscoh :   6 , xsinc :   0 , xstot :   6 , xsabs :   0.019 };\n_NEUTRONDATA [  114  ]={ element: '94Mo'  , mass :  94  ,slength :  6.82  , errslength :  0.07  , xscoh :   5.81  , xsinc :   0 , xstot :   5.81  , xsabs :   0.015 };\n_NEUTRONDATA [  115  ]={ element: '95Mo'  , mass :  95  ,slength :  6.93  , errslength :  0.06  , xscoh :   6 , xsinc :   0.5 , xstot :   6.5 , xsabs :   13.1  };\n_NEUTRONDATA [  116  ]={ element: '96Mo'  , mass :  96  ,slength :  6.22  , errslength :  0.06  , xscoh :   4.83  , xsinc :   0 , xstot :   4.83  , xsabs :   0.5 };\n_NEUTRONDATA [  117  ]={ element: '97Mo'  , mass :  97  ,slength :  7.26  , errslength :  0.08  , xscoh :   6.59  , xsinc :   0.5 , xstot :   7.1 , xsabs :   2.5 };\n_NEUTRONDATA [  118  ]={ element: '98Mo'  , mass :  98  ,slength :  6.6 , errslength :  0.07  , xscoh :   5.44  , xsinc :   0 , xstot :   5.44  , xsabs :   0.127 };\n_NEUTRONDATA [  119  ]={ element: '100Mo' , mass :  100 ,slength :  6.75  , errslength :  0.07  , xscoh :   5.69  , xsinc :   0 , xstot :   5.69  , xsabs :   0.4 };\n_NEUTRONDATA [  120  ]={ element: '99Tc'  , mass :  99  ,slength :  6.8 , errslength :  0.3 , xscoh :   5.8 , xsinc :   0.5 , xstot :   6.3 , xsabs :   20  };\n_NEUTRONDATA [  121  ]={ element: '96Ru'  , mass :  96  ,slength :  -1  , errslength :  -1  , xscoh :   -1  , xsinc :   -1  , xstot :   -1  , xsabs :   0.28  };\n_NEUTRONDATA [  122  ]={ element: '98Ru'  , mass :  98  ,slength :  -1  , errslength :  -1  , xscoh :   -1  , xsinc :   -1  , xstot :   -1  , xsabs :   8 };\n_NEUTRONDATA [  123  ]={ element: '99Ru'  , mass :  99  ,slength :  -1  , errslength :  -1  , xscoh :   -1  , xsinc :   -1  , xstot :   -1  , xsabs :   6.9 };\n_NEUTRONDATA [  124  ]={ element: '100Ru' , mass :  100 ,slength :  -1  , errslength :  -1  , xscoh :   -1  , xsinc :   -1  , xstot :   -1  , xsabs :   4.8 };\n_NEUTRONDATA [  125  ]={ element: '101Ru' , mass :  101 ,slength :  -1  , errslength :  -1  , xscoh :   -1  , xsinc :   -1  , xstot :   -1  , xsabs :   3.3 };\n_NEUTRONDATA [  126  ]={ element: '102Ru' , mass :  102 ,slength :  -1  , errslength :  -1  , xscoh :   -1  , xsinc :   -1  , xstot :   -1  , xsabs :   1.17  };\n_NEUTRONDATA [  127  ]={ element: '104Ru' , mass :  104 ,slength :  -1  , errslength :  -1  , xscoh :   -1  , xsinc :   -1  , xstot :   -1  , xsabs :   0.31  };\n_NEUTRONDATA [  128  ]={ element: '103Rh' , mass :  103 ,slength :  5.9 , errslength :  0.04  , xscoh :   4.34  , xsinc :   0.3 , xstot :   4.6 , xsabs :   144.8 };\n_NEUTRONDATA [  129  ]={ element: '102Pd' , mass :  102 ,slength :  7.7 , errslength :  0.7 , xscoh :   7.5 , xsinc :   0 , xstot :   7.5 , xsabs :   3.4 };\n_NEUTRONDATA [  130  ]={ element: '104Pd' , mass :  104 ,slength :  7.7 , errslength :  0.7 , xscoh :   7.5 , xsinc :   0 , xstot :   7.5 , xsabs :   0.6 };\n_NEUTRONDATA [  131  ]={ element: '105Pd' , mass :  105 ,slength :  5.5 , errslength :  0.3 , xscoh :   3.8 , xsinc :   0.8 , xstot :   4.6 , xsabs :   20  };\n_NEUTRONDATA [  132  ]={ element: '106Pd' , mass :  106 ,slength :  6.4 , errslength :  0.4 , xscoh :   5.1 , xsinc :   0 , xstot :   5.1 , xsabs :   0.30482 };\n_NEUTRONDATA [  133  ]={ element: '108Pd' , mass :  108 ,slength :  4.1 , errslength :  0.3 , xscoh :   2.1 , xsinc :   0 , xstot :   2.1 , xsabs :   8.5 };\n_NEUTRONDATA [  134  ]={ element: '110Pd' , mass :  110 ,slength :  7.7 , errslength :  0.7 , xscoh :   7.5 , xsinc :   0 , xstot :   7.5 , xsabs :   0.226 };\n_NEUTRONDATA [  135  ]={ element: '107Ag' , mass :  107 ,slength :  7.555 , errslength :  0.011 , xscoh :   7.17  , xsinc :   0.13  , xstot :   7.3 , xsabs :   37.6  };\n_NEUTRONDATA [  136  ]={ element: '109Ag' , mass :  109 ,slength :  4.165 , errslength :  0.011 , xscoh :   2.18  , xsinc :   0.32  , xstot :   2.5 , xsabs :   91  };\n_NEUTRONDATA [  137  ]={ element: '106Cd' , mass :  106 ,slength :  5 , errslength :  2 , xscoh :   3.1 , xsinc :   0 , xstot :   3.1 , xsabs :   1 };\n_NEUTRONDATA [  138  ]={ element: '108Cd' , mass :  108 ,slength :  5.31  , errslength :  0.24  , xscoh :   3.7 , xsinc :   0 , xstot :   3.7 , xsabs :   1.1 };\n_NEUTRONDATA [  139  ]={ element: '110Cd' , mass :  110 ,slength :  5.78  , errslength :  0.08  , xscoh :   4.4 , xsinc :   0 , xstot :   4.4 , xsabs :   11  };\n_NEUTRONDATA [  140  ]={ element: '111Cd' , mass :  111 ,slength :  6.47  , errslength :  0.08  , xscoh :   5.3 , xsinc :   0.3 , xstot :   5.6 , xsabs :   24  };\n_NEUTRONDATA [  141  ]={ element: '112Cd' , mass :  112 ,slength :  6.34  , errslength :  0.06  , xscoh :   5.1 , xsinc :   0 , xstot :   5.1 , xsabs :   2.2 };\n_NEUTRONDATA [  142  ]={ element: '113Cd' , mass :  113 ,slength :  -8  , errslength :  0.1 , xscoh :   12.1  , xsinc :   0.3 , xstot :   12.4  , xsabs :   20600 };\n_NEUTRONDATA [  143  ]={ element: '114Cd' , mass :  114 ,slength :  7.48  , errslength :  0.05  , xscoh :   7.1 , xsinc :   0 , xstot :   7.1 , xsabs :   0.34  };\n_NEUTRONDATA [  144  ]={ element: '116Cd' , mass :  116 ,slength :  6.26  , errslength :  0.09  , xscoh :   5 , xsinc :   0 , xstot :   5 , xsabs :   0.075 };\n_NEUTRONDATA [  145  ]={ element: '113In' , mass :  113 ,slength :  5.39  , errslength :  0.06  , xscoh :   3.65  , xsinc :   0.000037  , xstot :   3.65  , xsabs :   12  };\n_NEUTRONDATA [  146  ]={ element: '115In' , mass :  115 ,slength :  4 , errslength :  0.03  , xscoh :   2.02  , xsinc :   0.55  , xstot :   2.57  , xsabs :   202 };\n_NEUTRONDATA [  147  ]={ element: '112Sn' , mass :  112 ,slength :  6 , errslength :  1 , xscoh :   4.5 , xsinc :   0 , xstot :   4.5 , xsabs :   1 };\n_NEUTRONDATA [  148  ]={ element: '114Sn' , mass :  114 ,slength :  6 , errslength :  3 , xscoh :   4.8 , xsinc :   0 , xstot :   4.8 , xsabs :   0.114 };\n_NEUTRONDATA [  149  ]={ element: '115Sn' , mass :  115 ,slength :  6 , errslength :  1 , xscoh :   4.5 , xsinc :   0.3 , xstot :   4.8 , xsabs :   30  };\n_NEUTRONDATA [  150  ]={ element: '116Sn' , mass :  116 ,slength :  6.1 , errslength :  0.01  , xscoh :   4.42  , xsinc :   0 , xstot :   4.42  , xsabs :   0.14  };\n_NEUTRONDATA [  151  ]={ element: '117Sn' , mass :  117 ,slength :  6.59  , errslength :  0.08  , xscoh :   5.28  , xsinc :   0.3 , xstot :   5.6 , xsabs :   2.3 };\n_NEUTRONDATA [  152  ]={ element: '118Sn' , mass :  118 ,slength :  6.23  , errslength :  0.04  , xscoh :   4.63  , xsinc :   0 , xstot :   4.63  , xsabs :   0.22  };\n_NEUTRONDATA [  153  ]={ element: '119Sn' , mass :  119 ,slength :  6.28  , errslength :  0.03  , xscoh :   4.71  , xsinc :   0.3 , xstot :   5 , xsabs :   2.2 };\n_NEUTRONDATA [  154  ]={ element: '120Sn' , mass :  120 ,slength :  6.67  , errslength :  0.04  , xscoh :   5.29  , xsinc :   0 , xstot :   5.29  , xsabs :   0.14  };\n_NEUTRONDATA [  155  ]={ element: '122Sn' , mass :  122 ,slength :  5.93  , errslength :  0.03  , xscoh :   4.14  , xsinc :   0 , xstot :   4.14  , xsabs :   0.18  };\n_NEUTRONDATA [  156  ]={ element: '124Sn' , mass :  124 ,slength :  6.15  , errslength :  0.03  , xscoh :   4.48  , xsinc :   0 , xstot :   4.48  , xsabs :   0.133 };\n_NEUTRONDATA [  157  ]={ element: '121Sb' , mass :  121 ,slength :  5.71  , errslength :  0.06  , xscoh :   4.1 , xsinc :   0.0003  , xstot :   4.1 , xsabs :   5.75  };\n_NEUTRONDATA [  158  ]={ element: '123Sb' , mass :  123 ,slength :  5.38  , errslength :  0.07  , xscoh :   3.64  , xsinc :   0.001 , xstot :   3.64  , xsabs :   3.8 };\n_NEUTRONDATA [  159  ]={ element: '120Te' , mass :  120 ,slength :  5.3 , errslength :  0.5 , xscoh :   3.5 , xsinc :   0 , xstot :   3.5 , xsabs :   2.3 };\n_NEUTRONDATA [  160  ]={ element: '122Te' , mass :  122 ,slength :  3.8 , errslength :  0.2 , xscoh :   1.8 , xsinc :   0 , xstot :   1.8 , xsabs :   3.4 };\n_NEUTRONDATA [  161  ]={ element: '123Te' , mass :  123 ,slength :  -0.05 , errslength :  0.25  , xscoh :   0.002 , xsinc :   0.52  , xstot :   0.52  , xsabs :   418 };\n_NEUTRONDATA [  162  ]={ element: '124Te' , mass :  124 ,slength :  7.95  , errslength :  0.1 , xscoh :   8 , xsinc :   0 , xstot :   8 , xsabs :   6.8 };\n_NEUTRONDATA [  163  ]={ element: '125Te' , mass :  125 ,slength :  5.01  , errslength :  0.08  , xscoh :   3.17  , xsinc :   0.008 , xstot :   3.18  , xsabs :   1.55  };\n_NEUTRONDATA [  164  ]={ element: '126Te' , mass :  126 ,slength :  5.55  , errslength :  0.07  , xscoh :   3.88  , xsinc :   0 , xstot :   3.88  , xsabs :   1.04  };\n_NEUTRONDATA [  165  ]={ element: '128Te' , mass :  128 ,slength :  5.88  , errslength :  0.07  , xscoh :   4.36  , xsinc :   0 , xstot :   4.36  , xsabs :   0.215 };\n_NEUTRONDATA [  166  ]={ element: '130Te' , mass :  130 ,slength :  6.01  , errslength :  0.07  , xscoh :   4.55  , xsinc :   0 , xstot :   4.55  , xsabs :   0.29  };\n_NEUTRONDATA [  167  ]={ element: '127I'  , mass :  127 ,slength :  6.15  , errslength :  0.06  , xscoh :   3.5 , xsinc :   0.31  , xstot :   3.81  , xsabs :   6.15  };\n_NEUTRONDATA [  168  ]={ element: '124Xe' , mass :  124 ,slength :  -1  , errslength :  -1  , xscoh :   -1  , xsinc :   -1  , xstot :   -1  , xsabs :   165 };\n_NEUTRONDATA [  169  ]={ element: '126Xe' , mass :  126 ,slength :  -1  , errslength :  -1  , xscoh :   -1  , xsinc :   -1  , xstot :   -1  , xsabs :   3.5 };\n_NEUTRONDATA [  170  ]={ element: '128Xe' , mass :  128 ,slength :  -1  , errslength :  -1  , xscoh :   -1  , xsinc :   -1  , xstot :   -1  , xsabs :   8 };\n_NEUTRONDATA [  171  ]={ element: '129Xe' , mass :  129 ,slength :  -1  , errslength :  -1  , xscoh :   -1  , xsinc :   -1  , xstot :   -1  , xsabs :   21  };\n_NEUTRONDATA [  172  ]={ element: '130Xe' , mass :  130 ,slength :  -1  , errslength :  -1  , xscoh :   -1  , xsinc :   -1  , xstot :   -1  , xsabs :   26  };\n_NEUTRONDATA [  173  ]={ element: '131Xe' , mass :  131 ,slength :  -1  , errslength :  -1  , xscoh :   -1  , xsinc :   -1  , xstot :   -1  , xsabs :   85  };\n_NEUTRONDATA [  174  ]={ element: '132Xe' , mass :  132 ,slength :  -1  , errslength :  -1  , xscoh :   -1  , xsinc :   -1  , xstot :   -1  , xsabs :   0.45  };\n_NEUTRONDATA [  175  ]={ element: '134Xe' , mass :  134 ,slength :  -1  , errslength :  -1  , xscoh :   -1  , xsinc :   -1  , xstot :   -1  , xsabs :   0.265 };\n_NEUTRONDATA [  176  ]={ element: '136Xe' , mass :  136 ,slength :  -1  , errslength :  -1  , xscoh :   -1  , xsinc :   -1  , xstot :   -1  , xsabs :   0.26  };\n_NEUTRONDATA [  177  ]={ element: '133Cs' , mass :  133 ,slength :  5.42  , errslength :  0.02  , xscoh :   3.69  , xsinc :   0.21  , xstot :   3.9 , xsabs :   29  };\n_NEUTRONDATA [  178  ]={ element: '130Ba' , mass :  130 ,slength :  -3.6  , errslength :  0.6 , xscoh :   1.6 , xsinc :   0 , xstot :   1.6 , xsabs :   30  };\n_NEUTRONDATA [  179  ]={ element: '132Ba' , mass :  132 ,slength :  7.8 , errslength :  0.3 , xscoh :   7.6 , xsinc :   0 , xstot :   7.6 , xsabs :   7 };\n_NEUTRONDATA [  180  ]={ element: '134Ba' , mass :  134 ,slength :  5.7 , errslength :  0.1 , xscoh :   4.08  , xsinc :   0 , xstot :   4.08  , xsabs :   2 };\n_NEUTRONDATA [  181  ]={ element: '135Ba' , mass :  135 ,slength :  4.66  , errslength :  0.1 , xscoh :   2.74  , xsinc :   0.5 , xstot :   3.2 , xsabs :   5.8 };\n_NEUTRONDATA [  182  ]={ element: '136Ba' , mass :  136 ,slength :  4.9 , errslength :  0.08  , xscoh :   3.03  , xsinc :   0 , xstot :   3.03  , xsabs :   0.68  };\n_NEUTRONDATA [  183  ]={ element: '137Ba' , mass :  137 ,slength :  6.82  , errslength :  0.1 , xscoh :   5.86  , xsinc :   0.5 , xstot :   6.4 , xsabs :   3.6 };\n_NEUTRONDATA [  184  ]={ element: '138Ba' , mass :  138 ,slength :  4.83  , errslength :  0.08  , xscoh :   2.94  , xsinc :   0 , xstot :   2.94  , xsabs :   0.27  };\n_NEUTRONDATA [  185  ]={ element: '138La' , mass :  138 ,slength :  5 , errslength :  1 , xscoh :   8 , xsinc :   0.5 , xstot :   8.5 , xsabs :   57  };\n_NEUTRONDATA [  186  ]={ element: '139La' , mass :  139 ,slength :  8.24  , errslength :  0.04  , xscoh :   8.53  , xsinc :   1.13  , xstot :   9.66  , xsabs :   8.93  };\n_NEUTRONDATA [  187  ]={ element: '136Ce' , mass :  136 ,slength :  5.76  , errslength :  0.09  , xscoh :   4.23  , xsinc :   0 , xstot :   4.23  , xsabs :   7.3 };\n_NEUTRONDATA [  188  ]={ element: '138Ce' , mass :  138 ,slength :  6.65  , errslength :  0.09  , xscoh :   5.64  , xsinc :   0 , xstot :   5.64  , xsabs :   1.1 };\n_NEUTRONDATA [  189  ]={ element: '140Ce' , mass :  140 ,slength :  4.81  , errslength :  0.09  , xscoh :   2.94  , xsinc :   0 , xstot :   2.94  , xsabs :   0.57  };\n_NEUTRONDATA [  190  ]={ element: '142Ce' , mass :  142 ,slength :  4.72  , errslength :  0.09  , xscoh :   2.84  , xsinc :   0 , xstot :   2.84  , xsabs :   0.95  };\n_NEUTRONDATA [  191  ]={ element: '141Pr' , mass :  141 ,slength :  4.58  , errslength :  0.05  , xscoh :   2.64  , xsinc :   0.015 , xstot :   2.66  , xsabs :   11.5  };\n_NEUTRONDATA [  192  ]={ element: '142Nd' , mass :  142 ,slength :  7.7 , errslength :  0.3 , xscoh :   7.5 , xsinc :   0 , xstot :   7.5 , xsabs :   18.7  };\n_NEUTRONDATA [  193  ]={ element: '143Nd' , mass :  143 ,slength :  14.2  , errslength :  0.5 , xscoh :   25  , xsinc :   55  , xstot :   80  , xsabs :   337 };\n_NEUTRONDATA [  194  ]={ element: '144Nd' , mass :  144 ,slength :  2.8 , errslength :  0.3 , xscoh :   1 , xsinc :   0 , xstot :   1 , xsabs :   3.6 };\n_NEUTRONDATA [  195  ]={ element: '145Nd' , mass :  145 ,slength :  14.2  , errslength :  0.5 , xscoh :   25  , xsinc :   5 , xstot :   30  , xsabs :   42  };\n_NEUTRONDATA [  196  ]={ element: '146Nd' , mass :  146 ,slength :  8.7 , errslength :  0.2 , xscoh :   9.5 , xsinc :   0 , xstot :   9.5 , xsabs :   1.4 };\n_NEUTRONDATA [  197  ]={ element: '148Nd' , mass :  148 ,slength :  5.7 , errslength :  0.3 , xscoh :   4.1 , xsinc :   0 , xstot :   4.1 , xsabs :   2.5 };\n_NEUTRONDATA [  198  ]={ element: '150Nd' , mass :  150 ,slength :  5.28  , errslength :  0.2 , xscoh :   3.5 , xsinc :   0 , xstot :   3.5 , xsabs :   1.2 };\n_NEUTRONDATA [  199  ]={ element: '147Pm' , mass :  147 ,slength :  12.6  , errslength :  0.4 , xscoh :   20  , xsinc :   1.3 , xstot :   21.3  , xsabs :   168.4 };\n_NEUTRONDATA [  200  ]={ element: '144Sm' , mass :  144 ,slength :  4 , errslength :  4 , xscoh :   1 , xsinc :   0 , xstot :   1 , xsabs :   0.7 };\n_NEUTRONDATA [  201  ]={ element: '147Sm' , mass :  147 ,slength :  14  , errslength :  3 , xscoh :   25  , xsinc :   14  , xstot :   39  , xsabs :   57  };\n_NEUTRONDATA [  202  ]={ element: '148Sm' , mass :  148 ,slength :  33  , errslength :  6 , xscoh :   1 , xsinc :   0 , xstot :   1 , xsabs :   2.4 };\n_NEUTRONDATA [  203  ]={ element: '149Sm' , mass :  149 ,slength :  18.7  , errslength :  0.28  , xscoh :   63.5  , xsinc :   137 , xstot :   200 , xsabs :   42080 };\n_NEUTRONDATA [  204  ]={ element: '150Sm' , mass :  150 ,slength :  14  , errslength :  3 , xscoh :   25  , xsinc :   0 , xstot :   25  , xsabs :   104 };\n_NEUTRONDATA [  205  ]={ element: '152Sm' , mass :  152 ,slength :  -5  , errslength :  0.6 , xscoh :   3.1 , xsinc :   0 , xstot :   3.1 , xsabs :   206 };\n_NEUTRONDATA [  206  ]={ element: '154Sm' , mass :  154 ,slength :  8 , errslength :  1 , xscoh :   11  , xsinc :   0 , xstot :   11  , xsabs :   8.4 };\n_NEUTRONDATA [  207  ]={ element: '151Eu' , mass :  151 ,slength :  6.92  , errslength :  0.15  , xscoh :   5.5 , xsinc :   3.1 , xstot :   8.6 , xsabs :   9100  };\n_NEUTRONDATA [  208  ]={ element: '153Eu' , mass :  153 ,slength :  8.22  , errslength :  0.12  , xscoh :   8.5 , xsinc :   1.3 , xstot :   9.8 , xsabs :   312 };\n_NEUTRONDATA [  209  ]={ element: '152Gd' , mass :  152 ,slength :  10  , errslength :  3 , xscoh :   13  , xsinc :   0 , xstot :   13  , xsabs :   735 };\n_NEUTRONDATA [  210  ]={ element: '154Gd' , mass :  154 ,slength :  10  , errslength :  3 , xscoh :   13  , xsinc :   0 , xstot :   13  , xsabs :   85  };\n_NEUTRONDATA [  211  ]={ element: '155Gd' , mass :  155 ,slength :  13.8  , errslength :  13.8  , xscoh :   40.8  , xsinc :   25  , xstot :   66  , xsabs :   61100 };\n_NEUTRONDATA [  212  ]={ element: '156Gd' , mass :  156 ,slength :  6.3 , errslength :  0.4 , xscoh :   5 , xsinc :   0 , xstot :   5 , xsabs :   1.5 };\n_NEUTRONDATA [  213  ]={ element: '157Gd' , mass :  157 ,slength :  40  , errslength :  40  , xscoh :   650 , xsinc :   394 , xstot :   1044  , xsabs :   259000  };\n_NEUTRONDATA [  214  ]={ element: '158Gd' , mass :  158 ,slength :  8.9 , errslength :  2 , xscoh :   10  , xsinc :   0 , xstot :   10  , xsabs :   2.2 };\n_NEUTRONDATA [  215  ]={ element: '160Gd' , mass :  160 ,slength :  9.15  , errslength :  0.05  , xscoh :   10.52 , xsinc :   0 , xstot :   10.52 , xsabs :   0.77  };\n_NEUTRONDATA [  216  ]={ element: '159Tb' , mass :  159 ,slength :  7.34  , errslength :  0.02  , xscoh :   6.84  , xsinc :   0.004 , xstot :   6.84  , xsabs :   23.4  };\n_NEUTRONDATA [  217  ]={ element: '156Dy' , mass :  156 ,slength :  6.1 , errslength :  0.5 , xscoh :   4.7 , xsinc :   0 , xstot :   4.7 , xsabs :   33  };\n_NEUTRONDATA [  218  ]={ element: '158Dy' , mass :  158 ,slength :  6 , errslength :  4 , xscoh :   5 , xsinc :   0 , xstot :   5 , xsabs :   43  };\n_NEUTRONDATA [  219  ]={ element: '160Dy' , mass :  160 ,slength :  6.7 , errslength :  0.4 , xscoh :   5.6 , xsinc :   0 , xstot :   5.6 , xsabs :   56  };\n_NEUTRONDATA [  220  ]={ element: '161Dy' , mass :  161 ,slength :  10.3  , errslength :  0.4 , xscoh :   13.3  , xsinc :   3 , xstot :   16  , xsabs :   600 };\n_NEUTRONDATA [  221  ]={ element: '162Dy' , mass :  162 ,slength :  -1.4  , errslength :  0.5 , xscoh :   0.25  , xsinc :   0 , xstot :   0.25  , xsabs :   194 };\n_NEUTRONDATA [  222  ]={ element: '163Dy' , mass :  163 ,slength :  5 , errslength :  0.4 , xscoh :   3.1 , xsinc :   0.21  , xstot :   3.3 , xsabs :   124 };\n_NEUTRONDATA [  223  ]={ element: '164Dy' , mass :  164 ,slength :  49.4  , errslength :  0.5 , xscoh :   307 , xsinc :   0 , xstot :   307 , xsabs :   2840  };\n_NEUTRONDATA [  224  ]={ element: '165Ho' , mass :  165 ,slength :  8.44  , errslength :  0.03  , xscoh :   8.06  , xsinc :   0.36  , xstot :   8.42  , xsabs :   64.7  };\n_NEUTRONDATA [  225  ]={ element: '162Er' , mass :  162 ,slength :  9.01  , errslength :  0.11  , xscoh :   9.7 , xsinc :   0 , xstot :   9.7 , xsabs :   19  };\n_NEUTRONDATA [  226  ]={ element: '164Er' , mass :  164 ,slength :  7.95  , errslength :  0.14  , xscoh :   8.4 , xsinc :   0 , xstot :   8.4 , xsabs :   13  };\n_NEUTRONDATA [  227  ]={ element: '166Er' , mass :  166 ,slength :  10.51 , errslength :  0.19  , xscoh :   14.1  , xsinc :   0 , xstot :   14.1  , xsabs :   19.6  };\n_NEUTRONDATA [  228  ]={ element: '167Er' , mass :  167 ,slength :  3.06  , errslength :  0.05  , xscoh :   1.1 , xsinc :   0.13  , xstot :   1.2 , xsabs :   659 };\n_NEUTRONDATA [  229  ]={ element: '168Er' , mass :  168 ,slength :  7.43  , errslength :  0.08  , xscoh :   6.9 , xsinc :   0 , xstot :   6.9 , xsabs :   2.74  };\n_NEUTRONDATA [  230  ]={ element: '170Er' , mass :  170 ,slength :  9.61  , errslength :  0.06  , xscoh :   11.6  , xsinc :   0 , xstot :   11.6  , xsabs :   5.8 };\n_NEUTRONDATA [  231  ]={ element: '169Tm' , mass :  169 ,slength :  7.07  , errslength :  0.03  , xscoh :   6.28  , xsinc :   0.1 , xstot :   6.38  , xsabs :   100 };\n_NEUTRONDATA [  232  ]={ element: '168Yb' , mass :  168 ,slength :  9 , errslength :  3 , xscoh :   2.13  , xsinc :   0 , xstot :   2.13  , xsabs :   2230  };\n_NEUTRONDATA [  233  ]={ element: '170Yb' , mass :  170 ,slength :  6.8 , errslength :  0.1 , xscoh :   5.8 , xsinc :   0 , xstot :   5.8 , xsabs :   11.4  };\n_NEUTRONDATA [  234  ]={ element: '171Yb' , mass :  171 ,slength :  9.7 , errslength :  0.1 , xscoh :   11.7  , xsinc :   3.9 , xstot :   15.6  , xsabs :   48.6  };\n_NEUTRONDATA [  235  ]={ element: '172Yb' , mass :  172 ,slength :  9.5 , errslength :  0.1 , xscoh :   11.2  , xsinc :   0 , xstot :   11.2  , xsabs :   0.8 };\n_NEUTRONDATA [  236  ]={ element: '173Yb' , mass :  173 ,slength :  9.56  , errslength :  0.1 , xscoh :   11.5  , xsinc :   3.5 , xstot :   15  , xsabs :   17.1  };\n_NEUTRONDATA [  237  ]={ element: '174Yb' , mass :  174 ,slength :  19.2  , errslength :  0.1 , xscoh :   46.8  , xsinc :   0 , xstot :   46.8  , xsabs :   69.4  };\n_NEUTRONDATA [  238  ]={ element: '176Yb' , mass :  176 ,slength :  8.7 , errslength :  0.1 , xscoh :   9.6 , xsinc :   0 , xstot :   9.6 , xsabs :   2.85  };\n_NEUTRONDATA [  239  ]={ element: '175Lu' , mass :  175 ,slength :  7.28  , errslength :  0.09  , xscoh :   6.59  , xsinc :   0.6 , xstot :   7.2 , xsabs :   21  };\n_NEUTRONDATA [  240  ]={ element: '176Lu' , mass :  176 ,slength :  6.1 , errslength :  0.2 , xscoh :   4.7 , xsinc :   1.2 , xstot :   5.9 , xsabs :   2065  };\n_NEUTRONDATA [  241  ]={ element: '174Hf' , mass :  174 ,slength :  10.9  , errslength :  1.1 , xscoh :   15  , xsinc :   0 , xstot :   15  , xsabs :   561 };\n_NEUTRONDATA [  242  ]={ element: '176Hf' , mass :  176 ,slength :  6.61  , errslength :  0.18  , xscoh :   5.5 , xsinc :   0 , xstot :   5.5 , xsabs :   23.5  };\n_NEUTRONDATA [  243  ]={ element: '177Hf' , mass :  177 ,slength :  0.7 , errslength :  1 , xscoh :   0.1 , xsinc :   0.1 , xstot :   0.2 , xsabs :   373 };\n_NEUTRONDATA [  244  ]={ element: '178Hf' , mass :  178 ,slength :  5.9 , errslength :  0.2 , xscoh :   4.4 , xsinc :   0 , xstot :   4.4 , xsabs :   84  };\n_NEUTRONDATA [  245  ]={ element: '179Hf' , mass :  179 ,slength :  7.46  , errslength :  0.16  , xscoh :   7 , xsinc :   0.14  , xstot :   7.1 , xsabs :   41  };\n_NEUTRONDATA [  246  ]={ element: '180Hf' , mass :  180 ,slength :  13.2  , errslength :  0.3 , xscoh :   21.9  , xsinc :   0 , xstot :   21.9  , xsabs :   13.04 };\n_NEUTRONDATA [  247  ]={ element: '180Ta' , mass :  180 ,slength :  7.2 , errslength :  2 , xscoh :   6.2 , xsinc :   0.5 , xstot :   7 , xsabs :   563 };\n_NEUTRONDATA [  248  ]={ element: '181Ta' , mass :  181 ,slength :  6.91  , errslength :  0.07  , xscoh :   6 , xsinc :   0.011 , xstot :   6.01  , xsabs :   20.5  };\n_NEUTRONDATA [  249  ]={ element: '180W'  , mass :  180 ,slength :  5 , errslength :  3 , xscoh :   3 , xsinc :   0 , xstot :   3 , xsabs :   30  };\n_NEUTRONDATA [  250  ]={ element: '182W'  , mass :  182 ,slength :  7.04  , errslength :  0.04  , xscoh :   6.1 , xsinc :   0 , xstot :   6.1 , xsabs :   20.7  };\n_NEUTRONDATA [  251  ]={ element: '183W'  , mass :  183 ,slength :  6.59  , errslength :  0.04  , xscoh :   5.36  , xsinc :   0.3 , xstot :   5.7 , xsabs :   10.1  };\n_NEUTRONDATA [  252  ]={ element: '184W'  , mass :  184 ,slength :  7.55  , errslength :  0.06  , xscoh :   7.03  , xsinc :   0 , xstot :   7.03  , xsabs :   1.7 };\n_NEUTRONDATA [  253  ]={ element: '186W'  , mass :  186 ,slength :  -0.73 , errslength :  0.04  , xscoh :   0.065 , xsinc :   0 , xstot :   0.065 , xsabs :   37.9  };\n_NEUTRONDATA [  254  ]={ element: '185Re' , mass :  185 ,slength :  9 , errslength :  0.3 , xscoh :   10.2  , xsinc :   0.5 , xstot :   10.7  , xsabs :   112 };\n_NEUTRONDATA [  255  ]={ element: '187Re' , mass :  187 ,slength :  9.3 , errslength :  0.3 , xscoh :   10.9  , xsinc :   1 , xstot :   11.9  , xsabs :   76.4  };\n_NEUTRONDATA [  256  ]={ element: '184Os' , mass :  184 ,slength :  10  , errslength :  2 , xscoh :   13  , xsinc :   0 , xstot :   13  , xsabs :   3000  };\n_NEUTRONDATA [  257  ]={ element: '186Os' , mass :  186 ,slength :  12  , errslength :  1.7 , xscoh :   17  , xsinc :   0 , xstot :   17  , xsabs :   80  };\n_NEUTRONDATA [  258  ]={ element: '187Os' , mass :  187 ,slength :  9.7 , errslength :  2 , xscoh :   13  , xsinc :   0.3 , xstot :   13  , xsabs :   320 };\n_NEUTRONDATA [  259  ]={ element: '188Os' , mass :  188 ,slength :  7.8 , errslength :  0.3 , xscoh :   7.3 , xsinc :   0 , xstot :   7.3 , xsabs :   4.7 };\n_NEUTRONDATA [  260  ]={ element: '189Os' , mass :  189 ,slength :  11  , errslength :  0.3 , xscoh :   14.4  , xsinc :   0.5 , xstot :   14.9  , xsabs :   25  };\n_NEUTRONDATA [  261  ]={ element: '190Os' , mass :  190 ,slength :  11.4  , errslength :  0.3 , xscoh :   15.2  , xsinc :   0 , xstot :   15.2  , xsabs :   13.1  };\n_NEUTRONDATA [  262  ]={ element: '192Os' , mass :  192 ,slength :  11.9  , errslength :  0.4 , xscoh :   16.6  , xsinc :   0 , xstot :   16.6  , xsabs :   2 };\n_NEUTRONDATA [  263  ]={ element: '191Ir' , mass :  191 ,slength :  -1  , errslength :  -1  , xscoh :   -1  , xsinc :   -1  , xstot :   -1  , xsabs :   954 };\n_NEUTRONDATA [  264  ]={ element: '193Ir' , mass :  193 ,slength :  -1  , errslength :  -1  , xscoh :   -1  , xsinc :   -1  , xstot :   -1  , xsabs :   111 };\n_NEUTRONDATA [  265  ]={ element: '190Pt' , mass :  190 ,slength :  9 , errslength :  1 , xscoh :   10  , xsinc :   0 , xstot :   10  , xsabs :   152 };\n_NEUTRONDATA [  266  ]={ element: '192Pt' , mass :  192 ,slength :  9.9 , errslength :  0.5 , xscoh :   12.3  , xsinc :   0 , xstot :   12.3  , xsabs :   10  };\n_NEUTRONDATA [  267  ]={ element: '194Pt' , mass :  194 ,slength :  10.55 , errslength :  0.08  , xscoh :   14  , xsinc :   0 , xstot :   14  , xsabs :   1.44  };\n_NEUTRONDATA [  268  ]={ element: '195Pt' , mass :  195 ,slength :  8.91  , errslength :  0.09  , xscoh :   9.8 , xsinc :   0.13  , xstot :   9.9 , xsabs :   27.5  };\n_NEUTRONDATA [  269  ]={ element: '196Pt' , mass :  196 ,slength :  9.89  , errslength :  0.08  , xscoh :   12.3  , xsinc :   0 , xstot :   12.3  , xsabs :   0.72  };\n_NEUTRONDATA [  270  ]={ element: '198Pt' , mass :  198 ,slength :  7.8 , errslength :  0.1 , xscoh :   7.6 , xsinc :   0 , xstot :   7.6 , xsabs :   3.66  };\n_NEUTRONDATA [  271  ]={ element: '197Au' , mass :  197 ,slength :  7.9 , errslength :  0.07  , xscoh :   7.32  , xsinc :   0.43  , xstot :   7.75  , xsabs :   98.65 };\n_NEUTRONDATA [  272  ]={ element: '196Hg' , mass :  196 ,slength :  30.3  , errslength :  30.3  , xscoh :   115 , xsinc :   0 , xstot :   115 , xsabs :   3080  };\n_NEUTRONDATA [  273  ]={ element: '198Hg' , mass :  198 ,slength :  -1  , errslength :  -1  , xscoh :   -1  , xsinc :   -1  , xstot :   -1  , xsabs :   2 };\n_NEUTRONDATA [  274  ]={ element: '199Hg' , mass :  199 ,slength :  16.9  , errslength :  0.4 , xscoh :   36  , xsinc :   30  , xstot :   66  , xsabs :   2150  };\n_NEUTRONDATA [  275  ]={ element: '200Hg' , mass :  200 ,slength :  -1  , errslength :  -1  , xscoh :   -1  , xsinc :   -1  , xstot :   -1  , xsabs :   60  };\n_NEUTRONDATA [  276  ]={ element: '201Hg' , mass :  201 ,slength :  -1  , errslength :  -1  , xscoh :   -1  , xsinc :   -1  , xstot :   -1  , xsabs :   7.8 };\n_NEUTRONDATA [  277  ]={ element: '202Hg' , mass :  202 ,slength :  11.002  , errslength :  0.043 , xscoh :   15.2108 , xsinc :   0 , xstot :   15.2108 , xsabs :   4.89  };\n_NEUTRONDATA [  278  ]={ element: '204Hg' , mass :  204 ,slength :  -1  , errslength :  -1  , xscoh :   -1  , xsinc :   -1  , xstot :   -1  , xsabs :   0.43  };\n_NEUTRONDATA [  279  ]={ element: '203Tl' , mass :  203 ,slength :  8.51  , errslength :  0.08  , xscoh :   6.14  , xsinc :   0.14  , xstot :   6.28  , xsabs :   11.4  };\n_NEUTRONDATA [  280  ]={ element: '205Tl' , mass :  205 ,slength :  8.87  , errslength :  0.07  , xscoh :   11.39 , xsinc :   0.007 , xstot :   11.4  , xsabs :   0.104 };\n_NEUTRONDATA [  281  ]={ element: '204Pb' , mass :  204 ,slength :  10.893  , errslength :  0.078 , xscoh :   12.3  , xsinc :   0 , xstot :   12.3  , xsabs :   0.65  };\n_NEUTRONDATA [  282  ]={ element: '206Pb' , mass :  206 ,slength :  9.221 , errslength :  0.078 , xscoh :   10.68 , xsinc :   0 , xstot :   10.68 , xsabs :   0.03  };\n_NEUTRONDATA [  283  ]={ element: '207Pb' , mass :  207 ,slength :  9.286 , errslength :  0.016 , xscoh :   10.82 , xsinc :   0.002 , xstot :   10.82 , xsabs :   0.699 };\n_NEUTRONDATA [  284  ]={ element: '208Pb' , mass :  208 ,slength :  9.494 , errslength :  0.03  , xscoh :   11.34 , xsinc :   0 , xstot :   11.34 , xsabs :   0.00048 };\n_NEUTRONDATA [  285  ]={ element: '209Bi' , mass :  209 ,slength :  8.532 , errslength :  0.002 , xscoh :   9.148 , xsinc :   0.0084  , xstot :   9.156 , xsabs :   0.0338  };\n_NEUTRONDATA [  286  ]={ element: '226Ra' , mass :  226 ,slength :  10  , errslength :  1 , xscoh :   13  , xsinc :   0 , xstot :   13  , xsabs :   12.8  };\n_NEUTRONDATA [  287  ]={ element: '232Th' , mass :  232 ,slength :  10.31 , errslength :  0.03  , xscoh :   13.36 , xsinc :   0 , xstot :   13.36 , xsabs :   7.37  };\n_NEUTRONDATA [  288  ]={ element: '231Pa' , mass :  231 ,slength :  9.1 , errslength :  0.3 , xscoh :   10.4  , xsinc :   0.1 , xstot :   10.5  , xsabs :   200.6 };\n_NEUTRONDATA [  289  ]={ element: '233U'  , mass :  233 ,slength :  10.1  , errslength :  0.2 , xscoh :   12.8  , xsinc :   0.1 , xstot :   12.9  , xsabs :   574.7 };\n_NEUTRONDATA [  290  ]={ element: '234U'  , mass :  234 ,slength :  12.4  , errslength :  0.3 , xscoh :   19.3  , xsinc :   0 , xstot :   19.3  , xsabs :   100.1 };\n_NEUTRONDATA [  291  ]={ element: '235U'  , mass :  235 ,slength :  10.5  , errslength :  0.03  , xscoh :   13.78 , xsinc :   0.2 , xstot :   14  , xsabs :   680.9 };\n_NEUTRONDATA [  292  ]={ element: '238U'  , mass :  238 ,slength :  8.407 , errslength :  0.007 , xscoh :   8.871 , xsinc :   0 , xstot :   8.871 , xsabs :   2.68  };\n_NEUTRONDATA [  293  ]={ element: 'H' , mass :  1.0079  ,slength :  -3.7409 , errslength :  0.0011  , xscoh :   1.7568  , xsinc :   80.26 , xstot :   82.02 , xsabs :   0.3326  };\n_NEUTRONDATA [  294  ]={ element: 'He'  , mass :  4.0026  ,slength :  3.26  , errslength :  0.03  , xscoh :   1.34  , xsinc :   0 , xstot :   1.34  , xsabs :   0.00747 };\n_NEUTRONDATA [  295  ]={ element: 'Li'  , mass :  6.941 ,slength :  -1.9  , errslength :  0.03  , xscoh :   0.454 , xsinc :   0.92  , xstot :   1.37  , xsabs :   70.5  };\n_NEUTRONDATA [  296  ]={ element: 'Be'  , mass :  9.0122  ,slength :  7.79  , errslength :  0.01  , xscoh :   7.63  , xsinc :   0.0018  , xstot :   7.63  , xsabs :   0.0076  };\n_NEUTRONDATA [  297  ]={ element: 'B' , mass :  10.811  ,slength :  5.3 , errslength :  0.04  , xscoh :   3.54  , xsinc :   1.7 , xstot :   5.24  , xsabs :   767 };\n_NEUTRONDATA [  298  ]={ element: 'C' , mass :  12.0107 ,slength :  6.6484  , errslength :  0.0013  , xscoh :   5.551 , xsinc :   0.001 , xstot :   5.551 , xsabs :   0.0035  };\n_NEUTRONDATA [  299  ]={ element: 'N' , mass :  14.0067 ,slength :  9.36  , errslength :  0.02  , xscoh :   11.01 , xsinc :   0.5 , xstot :   11.51 , xsabs :   1.9 };\n_NEUTRONDATA [  300  ]={ element: 'O' , mass :  15.9994 ,slength :  5.805 , errslength :  0.004 , xscoh :   4.232 , xsinc :   0 , xstot :   4.232 , xsabs :   0.00019 };\n_NEUTRONDATA [  301  ]={ element: 'F' , mass :  18.9984 ,slength :  5.654 , errslength :  0.012 , xscoh :   4.017 , xsinc :   0.0008  , xstot :   4.018 , xsabs :   0.0096  };\n_NEUTRONDATA [  302  ]={ element: 'Ne'  , mass :  20.1797 ,slength :  4.6 , errslength :  0.01  , xscoh :   2.62  , xsinc :   0.008 , xstot :   2.628 , xsabs :   0.039 };\n_NEUTRONDATA [  303  ]={ element: 'Na'  , mass :  22.9897 ,slength :  3.63  , errslength :  0.02  , xscoh :   1.66  , xsinc :   1.62  , xstot :   3.28  , xsabs :   0.53  };\n_NEUTRONDATA [  304  ]={ element: 'Mg'  , mass :  24.305  ,slength :  5.375 , errslength :  0.004 , xscoh :   3.631 , xsinc :   0.08  , xstot :   3.71  , xsabs :   0.063 };\n_NEUTRONDATA [  305  ]={ element: 'Al'  , mass :  26.9815 ,slength :  3.449 , errslength :  0.005 , xscoh :   1.495 , xsinc :   0.0082  , xstot :   1.503 , xsabs :   0.231 };\n_NEUTRONDATA [  306  ]={ element: 'Si'  , mass :  28.0855 ,slength :  4.15071 , errslength :  0.00022 , xscoh :   2.1633  , xsinc :   0.004 , xstot :   2.167 , xsabs :   0.171 };\n_NEUTRONDATA [  307  ]={ element: 'P' , mass :  30.9738 ,slength :  5.13  , errslength :  0.01  , xscoh :   3.307 , xsinc :   0.005 , xstot :   3.312 , xsabs :   0.172 };\n_NEUTRONDATA [  308  ]={ element: 'S' , mass :  32.065  ,slength :  2.847 , errslength :  0.001 , xscoh :   1.0186  , xsinc :   0.007 , xstot :   1.026 , xsabs :   0.53  };\n_NEUTRONDATA [  309  ]={ element: 'Cl'  , mass :  35.453  ,slength :  9.5792  , errslength :  0.0008  , xscoh :   11.528  , xsinc :   5.3 , xstot :   16.8  , xsabs :   33.5  };\n_NEUTRONDATA [  310  ]={ element: 'Ar'  , mass :  39.948  ,slength :  1.909 , errslength :  0.006 , xscoh :   0.458 , xsinc :   0.225 , xstot :   0.683 , xsabs :   0.675 };\n_NEUTRONDATA [  311  ]={ element: 'K' , mass :  39.0983 ,slength :  3.67  , errslength :  0.02  , xscoh :   1.69  , xsinc :   0.27  , xstot :   1.96  , xsabs :   2.1 };\n_NEUTRONDATA [  312  ]={ element: 'Ca'  , mass :  40.078  ,slength :  4.7 , errslength :  0.02  , xscoh :   2.78  , xsinc :   0.05  , xstot :   2.83  , xsabs :   0.43  };\n_NEUTRONDATA [  313  ]={ element: 'Sc'  , mass :  44.9559 ,slength :  12.1  , errslength :  0.1 , xscoh :   19  , xsinc :   4.5 , xstot :   23.5  , xsabs :   27.5  };\n_NEUTRONDATA [  314  ]={ element: 'Ti'  , mass :  47.867  ,slength :  -3.37 , errslength :  0.013 , xscoh :   1.485 , xsinc :   2.87  , xstot :   4.35  , xsabs :   6.09  };\n_NEUTRONDATA [  315  ]={ element: 'V' , mass :  50.9415 ,slength :  -0.443  , errslength :  0.014 , xscoh :   0.01838 , xsinc :   5.08  , xstot :   5.1 , xsabs :   5.08  };\n_NEUTRONDATA [  316  ]={ element: 'Cr'  , mass :  51.9961 ,slength :  3.635 , errslength :  0.007 , xscoh :   1.66  , xsinc :   1.83  , xstot :   3.49  , xsabs :   3.05  };\n_NEUTRONDATA [  317  ]={ element: 'Mn'  , mass :  54.938  ,slength :  -3.75 , errslength :  0.018 , xscoh :   1.75  , xsinc :   0.4 , xstot :   2.15  , xsabs :   13.3  };\n_NEUTRONDATA [  318  ]={ element: 'Fe'  , mass :  55.845  ,slength :  9.45  , errslength :  0.02  , xscoh :   11.22 , xsinc :   0.4 , xstot :   11.62 , xsabs :   2.56  };\n_NEUTRONDATA [  319  ]={ element: 'Co'  , mass :  58.9332 ,slength :  2.49  , errslength :  0.02  , xscoh :   0.779 , xsinc :   4.8 , xstot :   5.6 , xsabs :   37.18 };\n_NEUTRONDATA [  320  ]={ element: 'Ni'  , mass :  58.6934 ,slength :  10.3  , errslength :  0.1 , xscoh :   13.3  , xsinc :   5.2 , xstot :   18.5  , xsabs :   4.49  };\n_NEUTRONDATA [  321  ]={ element: 'Cu'  , mass :  63.546  ,slength :  7.718 , errslength :  0.004 , xscoh :   7.485 , xsinc :   0.55  , xstot :   8.03  , xsabs :   3.78  };\n_NEUTRONDATA [  322  ]={ element: 'Zn'  , mass :  65.39 ,slength :  5.68  , errslength :  0.005 , xscoh :   4.054 , xsinc :   0.077 , xstot :   4.131 , xsabs :   1.11  };\n_NEUTRONDATA [  323  ]={ element: 'Ga'  , mass :  69.723  ,slength :  7.288 , errslength :  0.002 , xscoh :   6.675 , xsinc :   0.16  , xstot :   6.83  , xsabs :   2.75  };\n_NEUTRONDATA [  324  ]={ element: 'Ge'  , mass :  72.64 ,slength :  8.185 , errslength :  0.02  , xscoh :   8.42  , xsinc :   0.18  , xstot :   8.6 , xsabs :   2.2 };\n_NEUTRONDATA [  325  ]={ element: 'As'  , mass :  74.9216 ,slength :  6.58  , errslength :  0.01  , xscoh :   5.44  , xsinc :   0.06  , xstot :   5.5 , xsabs :   51.8  };\n_NEUTRONDATA [  326  ]={ element: 'Se'  , mass :  78.96 ,slength :  7.97  , errslength :  0.009 , xscoh :   7.98  , xsinc :   0.32  , xstot :   8.3 , xsabs :   11.7  };\n_NEUTRONDATA [  327  ]={ element: 'Br'  , mass :  79.904  ,slength :  6.79  , errslength :  0.02  , xscoh :   5.8 , xsinc :   0.1 , xstot :   5.9 , xsabs :   6.9 };\n_NEUTRONDATA [  328  ]={ element: 'Kr'  , mass :  83.8  ,slength :  7.81  , errslength :  0.02  , xscoh :   7.67  , xsinc :   0.01  , xstot :   7.68  , xsabs :   25  };\n_NEUTRONDATA [  329  ]={ element: 'Rb'  , mass :  85.4678 ,slength :  7.08  , errslength :  0.02  , xscoh :   6.32  , xsinc :   0.5 , xstot :   6.8 , xsabs :   0.38  };\n_NEUTRONDATA [  330  ]={ element: 'Sr'  , mass :  87.62 ,slength :  7.02  , errslength :  0.02  , xscoh :   6.19  , xsinc :   0.06  , xstot :   6.25  , xsabs :   1.28  };\n_NEUTRONDATA [  331  ]={ element: 'Y' , mass :  88.9059 ,slength :  7.75  , errslength :  0.02  , xscoh :   7.55  , xsinc :   0.15  , xstot :   7.7 , xsabs :   1.28  };\n_NEUTRONDATA [  332  ]={ element: 'Zr'  , mass :  91.224  ,slength :  7.16  , errslength :  0.03  , xscoh :   6.44  , xsinc :   0.02  , xstot :   6.46  , xsabs :   0.185 };\n_NEUTRONDATA [  333  ]={ element: 'Nb'  , mass :  92.9064 ,slength :  7.054 , errslength :  0.003 , xscoh :   6.253 , xsinc :   0.0024  , xstot :   6.255 , xsabs :   1.15  };\n_NEUTRONDATA [  334  ]={ element: 'Mo'  , mass :  95.94 ,slength :  6.715 , errslength :  0.02  , xscoh :   5.67  , xsinc :   0.04  , xstot :   5.71  , xsabs :   2.48  };\n_NEUTRONDATA [  335  ]={ element: 'Tc'  , mass :  98  ,slength :  6.8 , errslength :  0.3 , xscoh :   5.8 , xsinc :   0.5 , xstot :   6.3 , xsabs :   20  };\n_NEUTRONDATA [  336  ]={ element: 'Ru'  , mass :  101.07  ,slength :  7.02  , errslength :  0.02  , xscoh :   6.21  , xsinc :   0.4 , xstot :   6.6 , xsabs :   2.56  };\n_NEUTRONDATA [  337  ]={ element: 'Rh'  , mass :  102.9055  ,slength :  5.9 , errslength :  0.04  , xscoh :   4.34  , xsinc :   0.3 , xstot :   4.6 , xsabs :   144.8 };\n_NEUTRONDATA [  338  ]={ element: 'Pd'  , mass :  106.42  ,slength :  5.91  , errslength :  0.06  , xscoh :   4.39  , xsinc :   0.093 , xstot :   4.48  , xsabs :   6.9 };\n_NEUTRONDATA [  339  ]={ element: 'Ag'  , mass :  107.8682  ,slength :  5.922 , errslength :  0.007 , xscoh :   4.407 , xsinc :   0.58  , xstot :   4.99  , xsabs :   63.3  };\n_NEUTRONDATA [  340  ]={ element: 'Cd'  , mass :  112.411 ,slength :  4.83  , errslength :  0.05  , xscoh :   3.04  , xsinc :   3.46  , xstot :   6.5 , xsabs :   2520  };\n_NEUTRONDATA [  341  ]={ element: 'In'  , mass :  114.818 ,slength :  4.065 , errslength :  0.02  , xscoh :   2.08  , xsinc :   0.54  , xstot :   2.62  , xsabs :   193.8 };\n_NEUTRONDATA [  342  ]={ element: 'Sn'  , mass :  118.71  ,slength :  6.225 , errslength :  0.002 , xscoh :   4.871 , xsinc :   0.022 , xstot :   4.892 , xsabs :   0.626 };\n_NEUTRONDATA [  343  ]={ element: 'Sb'  , mass :  121.76  ,slength :  5.57  , errslength :  0.03  , xscoh :   3.9 , xsinc :   0 , xstot :   3.9 , xsabs :   4.91  };\n_NEUTRONDATA [  344  ]={ element: 'Te'  , mass :  127.6 ,slength :  5.68  , errslength :  0.02  , xscoh :   4.23  , xsinc :   0.09  , xstot :   4.32  , xsabs :   4.7 };\n_NEUTRONDATA [  345  ]={ element: 'I' , mass :  126.9045  ,slength :  6.15  , errslength :  0.06  , xscoh :   3.5 , xsinc :   0.31  , xstot :   3.81  , xsabs :   6.15  };\n_NEUTRONDATA [  346  ]={ element: 'Xe'  , mass :  131.293 ,slength :  4.69  , errslength :  0.04  , xscoh :   3.04  , xsinc :   0 , xstot :   3.04  , xsabs :   23.9  };\n_NEUTRONDATA [  347  ]={ element: 'Cs'  , mass :  132.9055  ,slength :  5.42  , errslength :  0.02  , xscoh :   3.69  , xsinc :   0.21  , xstot :   3.9 , xsabs :   29  };\n_NEUTRONDATA [  348  ]={ element: 'Ba'  , mass :  137.327 ,slength :  5.07  , errslength :  0.03  , xscoh :   3.23  , xsinc :   0.15  , xstot :   3.38  , xsabs :   1.1 };\n_NEUTRONDATA [  349  ]={ element: 'La'  , mass :  138.9055  ,slength :  8.24  , errslength :  0.04  , xscoh :   8.53  , xsinc :   1.13  , xstot :   9.66  , xsabs :   8.97  };\n_NEUTRONDATA [  350  ]={ element: 'Ce'  , mass :  140.116 ,slength :  4.84  , errslength :  0.02  , xscoh :   2.94  , xsinc :   0 , xstot :   2.94  , xsabs :   0.63  };\n_NEUTRONDATA [  351  ]={ element: 'Pr'  , mass :  140.9077  ,slength :  4.58  , errslength :  0.05  , xscoh :   2.64  , xsinc :   0.015 , xstot :   2.66  , xsabs :   11.5  };\n_NEUTRONDATA [  352  ]={ element: 'Nd'  , mass :  144.24  ,slength :  7.69  , errslength :  0.05  , xscoh :   7.43  , xsinc :   9.2 , xstot :   16.6  , xsabs :   50.5  };\n_NEUTRONDATA [  353  ]={ element: 'Pm'  , mass :  145 ,slength :  12.6  , errslength :  0.4 , xscoh :   20  , xsinc :   1.3 , xstot :   21.3  , xsabs :   168.4 };\n_NEUTRONDATA [  354  ]={ element: 'Sm'  , mass :  150.36  ,slength :  0 , errslength :  0.05  , xscoh :   0.422 , xsinc :   39  , xstot :   39.4  , xsabs :   5922  };\n_NEUTRONDATA [  355  ]={ element: 'Eu'  , mass :  151.964 ,slength :  5.3 , errslength :  0.3 , xscoh :   6.57  , xsinc :   2.5 , xstot :   9.2 , xsabs :   4530  };\n_NEUTRONDATA [  356  ]={ element: 'Gd'  , mass :  157.25  ,slength :  9.5 , errslength :  0.2 , xscoh :   29.3  , xsinc :   151 , xstot :   180 , xsabs :   49700 };\n_NEUTRONDATA [  357  ]={ element: 'Tb'  , mass :  158.9253  ,slength :  7.34  , errslength :  0.02  , xscoh :   6.84  , xsinc :   0.004 , xstot :   6.84  , xsabs :   23.4  };\n_NEUTRONDATA [  358  ]={ element: 'Dy'  , mass :  162.5 ,slength :  16.9  , errslength :  0.3 , xscoh :   35.9  , xsinc :   54.4  , xstot :   90.3  , xsabs :   994 };\n_NEUTRONDATA [  359  ]={ element: 'Ho'  , mass :  164.9303  ,slength :  8.44  , errslength :  0.03  , xscoh :   8.06  , xsinc :   0.36  , xstot :   8.42  , xsabs :   64.7  };\n_NEUTRONDATA [  360  ]={ element: 'Er'  , mass :  167.259 ,slength :  7.79  , errslength :  0.02  , xscoh :   7.63  , xsinc :   1.1 , xstot :   8.7 , xsabs :   159 };\n_NEUTRONDATA [  361  ]={ element: 'Tm'  , mass :  168.9342  ,slength :  7.07  , errslength :  0.03  , xscoh :   6.28  , xsinc :   0.1 , xstot :   6.38  , xsabs :   100 };\n_NEUTRONDATA [  362  ]={ element: 'Yb'  , mass :  173.04  ,slength :  12.41 , errslength :  0.03  , xscoh :   19.42 , xsinc :   4 , xstot :   23.4  , xsabs :   34.8  };\n_NEUTRONDATA [  363  ]={ element: 'Lu'  , mass :  174.967 ,slength :  7.21  , errslength :  0.03  , xscoh :   6.53  , xsinc :   0.7 , xstot :   7.2 , xsabs :   74  };\n_NEUTRONDATA [  364  ]={ element: 'Hf'  , mass :  178.49  ,slength :  7.77  , errslength :  0.14  , xscoh :   7.6 , xsinc :   2.6 , xstot :   10.2  , xsabs :   104.1 };\n_NEUTRONDATA [  365  ]={ element: 'Ta'  , mass :  180.9479  ,slength :  6.91  , errslength :  0.07  , xscoh :   6 , xsinc :   0.01  , xstot :   6.01  , xsabs :   20.6  };\n_NEUTRONDATA [  366  ]={ element: 'W' , mass :  183.84  ,slength :  4.755 , errslength :  0.018 , xscoh :   2.97  , xsinc :   1.63  , xstot :   4.6 , xsabs :   18.3  };\n_NEUTRONDATA [  367  ]={ element: 'Re'  , mass :  186.207 ,slength :  9.2 , errslength :  0.2 , xscoh :   10.6  , xsinc :   0.9 , xstot :   11.5  , xsabs :   89.7  };\n_NEUTRONDATA [  368  ]={ element: 'Os'  , mass :  190.23  ,slength :  10.7  , errslength :  0.2 , xscoh :   14.4  , xsinc :   0.3 , xstot :   14.7  , xsabs :   16  };\n_NEUTRONDATA [  369  ]={ element: 'Ir'  , mass :  192.217 ,slength :  10.6  , errslength :  0.3 , xscoh :   14.1  , xsinc :   0 , xstot :   14  , xsabs :   425 };\n_NEUTRONDATA [  370  ]={ element: 'Pt'  , mass :  195.078 ,slength :  9.6 , errslength :  0.01  , xscoh :   11.58 , xsinc :   0.13  , xstot :   11.71 , xsabs :   10.3  };\n_NEUTRONDATA [  371  ]={ element: 'Au'  , mass :  196.9665  ,slength :  7.9 , errslength :  0.07  , xscoh :   7.32  , xsinc :   0.43  , xstot :   7.75  , xsabs :   98.65 };\n_NEUTRONDATA [  372  ]={ element: 'Hg'  , mass :  200.59  ,slength :  12.66 , errslength :  0.02  , xscoh :   20.24 , xsinc :   6.6 , xstot :   26.8  , xsabs :   372.3 };\n_NEUTRONDATA [  373  ]={ element: 'Tl'  , mass :  204.3833  ,slength :  8.776 , errslength :  0.005 , xscoh :   9.678 , xsinc :   0.21  , xstot :   9.89  , xsabs :   3.43  };\n_NEUTRONDATA [  374  ]={ element: 'Pb'  , mass :  207.2 ,slength :  9.401 , errslength :  0.002 , xscoh :   11.115  , xsinc :   0.003 , xstot :   11.118  , xsabs :   0.171 };\n_NEUTRONDATA [  375  ]={ element: 'Bi'  , mass :  208.9804  ,slength :  8.532 , errslength :  0.002 , xscoh :   -1  , xsinc :   -1  , xstot :   -1  , xsabs :   -1  };\n_NEUTRONDATA [  376  ]={ element: 'Ra'  , mass :  226 ,slength :  10  , errslength :  1 , xscoh :   -1  , xsinc :   -1  , xstot :   -1  , xsabs :   -1  };\n_NEUTRONDATA [  377  ]={ element: 'Th'  , mass :  232.0381  ,slength :  10.31 , errslength :  0.03  , xscoh :   -1  , xsinc :   -1  , xstot :   -1  , xsabs :   -1  };\n_NEUTRONDATA [  378  ]={ element: 'Pa'  , mass :  231.0359  ,slength :  9.1 , errslength :  0.3 , xscoh :   -1  , xsinc :   -1  , xstot :   -1  , xsabs :   -1  };\n_NEUTRONDATA [  379  ]={ element: 'U' , mass :  238.0289  ,slength :  8.417 , errslength :  0.005 , xscoh :   8.903 , xsinc :   0.005 , xstot :   8.908 , xsabs :   7.57  };\n \nvar _MATERIALS = new Array();\n\/\/ pure elements\n_MATERIALS[_MATERIALS.length] = { name :  'He (liquid)',  elements: new Array(  'He'  ), fractions : new Array(1,0), density: 0.125};\n_MATERIALS[_MATERIALS.length] = { name :  'He (superfluid)',  elements: new Array(  'He'  ), fractions : new Array(1,0), density: 0.145}\n_MATERIALS[_MATERIALS.length] = { name :  'Lithium' , elements: new Array(  'Li'  ), fractions : new Array(1,0), density: 0.53  }\n_MATERIALS[_MATERIALS.length] = { name :  'Beryllium' , elements: new Array(  'Be'  ), fractions : new Array(1,0), density: 1.85  }\n_MATERIALS[_MATERIALS.length] = { name :  'Boron' , elements: new Array(  'B' ), fractions : new Array(1,0), density: 2.34  }\n_MATERIALS[_MATERIALS.length] = { name :  'Carbon (graphite)'  , elements: new Array(  'C' ), fractions : new Array(1,0), density: 2.267  }\n_MATERIALS[_MATERIALS.length] = { name :  'Carbon (diamond)'  , elements: new Array(  'C' ), fractions : new Array(1,0), density: 3.515   }\n_MATERIALS[_MATERIALS.length] = { name :  'Carbon (amorphous)'  , elements: new Array(  'C' ), fractions : new Array(1,0), density: 2   }\n_MATERIALS[_MATERIALS.length] = { name :  'Sodium'  , elements: new Array(  'Na'  ), fractions : new Array(1,0), density: 0.97  }\n_MATERIALS[_MATERIALS.length] = { name :  'Magnesium' , elements: new Array(  'Mg'  ), fractions : new Array(1,0), density: 1.74  }\n_MATERIALS[_MATERIALS.length] = { name :  'Aluminum'  , elements: new Array(  'Al'  ), fractions : new Array(1,0), density: 2.7 }\n_MATERIALS[_MATERIALS.length] = { name :  'Silicon' , elements: new Array(  'Si'  ), fractions : new Array(1,0), density: 2.33  }\n_MATERIALS[_MATERIALS.length] = { name :  'Phosphorus'  , elements: new Array(  'P' ), fractions : new Array(1,0), density: 1.82  }\n_MATERIALS[_MATERIALS.length] = { name :  'Sulfur'  , elements: new Array(  'S' ), fractions : new Array(1,0), density: 2.07  }\n_MATERIALS[_MATERIALS.length] = { name :  'Potassium' , elements: new Array(  'K' ), fractions : new Array(1,0), density: 0.86  }\n_MATERIALS[_MATERIALS.length] = { name :  'Calcium' , elements: new Array(  'Ca'  ), fractions : new Array(1,0), density: 1.54  }\n_MATERIALS[_MATERIALS.length] = { name :  'Scandium'  , elements: new Array(  'Sc'  ), fractions : new Array(1,0), density: 2.99  }\n_MATERIALS[_MATERIALS.length] = { name :  'Titanium'  , elements: new Array(  'Ti'  ), fractions : new Array(1,0), density: 4.54  }\n_MATERIALS[_MATERIALS.length] = { name :  'Vanadium'  , elements: new Array(  'V' ), fractions : new Array(1,0), density: 6.11  }\n_MATERIALS[_MATERIALS.length] = { name :  'Chromium'  , elements: new Array(  'Cr'  ), fractions : new Array(1,0), density: 7.15  }\n_MATERIALS[_MATERIALS.length] = { name :  'Manganese' , elements: new Array(  'Mn'  ), fractions : new Array(1,0), density: 7.44  }\n_MATERIALS[_MATERIALS.length] = { name :  'Iron'  , elements: new Array(  'Fe'  ), fractions : new Array(1,0), density: 7.87  }\n_MATERIALS[_MATERIALS.length] = { name :  'Cobalt'  , elements: new Array(  'Co'  ), fractions : new Array(1,0), density: 8.86  }\n_MATERIALS[_MATERIALS.length] = { name :  'Nickel'  , elements: new Array(  'Ni'  ), fractions : new Array(1,0), density: 8.91  }\n_MATERIALS[_MATERIALS.length] = { name :  'Copper'  , elements: new Array(  'Cu'  ), fractions : new Array(1,0), density: 8.93  }\n_MATERIALS[_MATERIALS.length] = { name :  'Zinc'  , elements: new Array(  'Zn'  ), fractions : new Array(1,0), density: 7.13  }\n_MATERIALS[_MATERIALS.length] = { name :  'Gallium' , elements: new Array(  'Ga'  ), fractions : new Array(1,0), density: 5.91  }\n_MATERIALS[_MATERIALS.length] = { name :  'Germanium' , elements: new Array(  'Ge'  ), fractions : new Array(1,0), density: 5.32  }\n_MATERIALS[_MATERIALS.length] = { name :  'Arsenic' , elements: new Array(  'As'  ), fractions : new Array(1,0), density: 5.78  }\n_MATERIALS[_MATERIALS.length] = { name :  'Selenium'  , elements: new Array(  'Se'  ), fractions : new Array(1,0), density: 4.81  }\n_MATERIALS[_MATERIALS.length] = { name :  'Bromine' , elements: new Array(  'Br'  ), fractions : new Array(1,0), density: 3.12  }\n_MATERIALS[_MATERIALS.length] = { name :  'Rubidium'  , elements: new Array(  'Rb'  ), fractions : new Array(1,0), density: 1.53  }\n_MATERIALS[_MATERIALS.length] = { name :  'Strontium' , elements: new Array(  'Sr'  ), fractions : new Array(1,0), density: 2.64  }\n_MATERIALS[_MATERIALS.length] = { name :  'Yttrium' , elements: new Array(  'Y' ), fractions : new Array(1,0), density: 4.47  }\n_MATERIALS[_MATERIALS.length] = { name :  'Zirconium' , elements: new Array(  'Zr'  ), fractions : new Array(1,0), density: 6.51  }\n_MATERIALS[_MATERIALS.length] = { name :  'Niobium' , elements: new Array(  'Nb'  ), fractions : new Array(1,0), density: 8.57  }\n_MATERIALS[_MATERIALS.length] = { name :  'Molybdenum'  , elements: new Array(  'Mo'  ), fractions : new Array(1,0), density: 10.22 }\n_MATERIALS[_MATERIALS.length] = { name :  'Technetium'  , elements: new Array(  'Tc'  ), fractions : new Array(1,0), density: 11.5  }\n_MATERIALS[_MATERIALS.length] = { name :  'Ruthenium' , elements: new Array(  'Ru'  ), fractions : new Array(1,0), density: 12.37 }\n_MATERIALS[_MATERIALS.length] = { name :  'Rhodium' , elements: new Array(  'Rh'  ), fractions : new Array(1,0), density: 12.41 }\n_MATERIALS[_MATERIALS.length] = { name :  'Palladium' , elements: new Array(  'Pd'  ), fractions : new Array(1,0), density: 12.02 }\n_MATERIALS[_MATERIALS.length] = { name :  'Silver'  , elements: new Array(  'Ag'  ), fractions : new Array(1,0), density: 10.5  }\n_MATERIALS[_MATERIALS.length] = { name :  'Cadmium' , elements: new Array(  'Cd'  ), fractions : new Array(1,0), density: 8.69  }\n_MATERIALS[_MATERIALS.length] = { name :  'Indium'  , elements: new Array(  'In'  ), fractions : new Array(1,0), density: 7.31  }\n_MATERIALS[_MATERIALS.length] = { name :  'Tin' , elements: new Array(  'Sn'  ), fractions : new Array(1,0), density: 7.29  }\n_MATERIALS[_MATERIALS.length] = { name :  'Antimony'  , elements: new Array(  'Sb'  ), fractions : new Array(1,0), density: 6.69  }\n_MATERIALS[_MATERIALS.length] = { name :  'Tellurium' , elements: new Array(  'Te'  ), fractions : new Array(1,0), density: 6.23  }\n_MATERIALS[_MATERIALS.length] = { name :  'Cesium'  , elements: new Array(  'Cs'  ), fractions : new Array(1,0), density: 1.87  }\n_MATERIALS[_MATERIALS.length] = { name :  'Barium'  , elements: new Array(  'Ba'  ), fractions : new Array(1,0), density: 3.59  }\n_MATERIALS[_MATERIALS.length] = { name :  'Lanthanum' , elements: new Array(  'La'  ), fractions : new Array(1,0), density: 6.15  }\n_MATERIALS[_MATERIALS.length] = { name :  'Cerium'  , elements: new Array(  'Ce'  ), fractions : new Array(1,0), density: 6.77  }\n_MATERIALS[_MATERIALS.length] = { name :  'Praseodymium'  , elements: new Array(  'Pr'  ), fractions : new Array(1,0), density: 6.77  }\n_MATERIALS[_MATERIALS.length] = { name :  'Neodymium' , elements: new Array(  'Nd'  ), fractions : new Array(1,0), density: 7.01  }\n_MATERIALS[_MATERIALS.length] = { name :  'Promethium'  , elements: new Array(  'Pm'  ), fractions : new Array(1,0), density: 7.26  }\n_MATERIALS[_MATERIALS.length] = { name :  'Samarium'  , elements: new Array(  'Sm'  ), fractions : new Array(1,0), density: 7.52  }\n_MATERIALS[_MATERIALS.length] = { name :  'Europium'  , elements: new Array(  'Eu'  ), fractions : new Array(1,0), density: 5.24  }\n_MATERIALS[_MATERIALS.length] = { name :  'Gadolinium'  , elements: new Array(  'Gd'  ), fractions : new Array(1,0), density: 7.9 }\n_MATERIALS[_MATERIALS.length] = { name :  'Terbium' , elements: new Array(  'Tb'  ), fractions : new Array(1,0), density: 8.23  }\n_MATERIALS[_MATERIALS.length] = { name :  'Dysprosium'  , elements: new Array(  'Dy'  ), fractions : new Array(1,0), density: 8.55  }\n_MATERIALS[_MATERIALS.length] = { name :  'Holmium' , elements: new Array(  'Ho'  ), fractions : new Array(1,0), density: 8.8 }\n_MATERIALS[_MATERIALS.length] = { name :  'Erbium'  , elements: new Array(  'Er'  ), fractions : new Array(1,0), density: 9.07  }\n_MATERIALS[_MATERIALS.length] = { name :  'Thulium' , elements: new Array(  'Tm'  ), fractions : new Array(1,0), density: 9.32  }\n_MATERIALS[_MATERIALS.length] = { name :  'Ytterbium' , elements: new Array(  'Yb'  ), fractions : new Array(1,0), density: 6.97  }\n_MATERIALS[_MATERIALS.length] = { name :  'Lutetium'  , elements: new Array(  'Lu'  ), fractions : new Array(1,0), density: 9.84  }\n_MATERIALS[_MATERIALS.length] = { name :  'Hafnium' , elements: new Array(  'Hf'  ), fractions : new Array(1,0), density: 13.31 }\n_MATERIALS[_MATERIALS.length] = { name :  'Tantalum'  , elements: new Array(  'Ta'  ), fractions : new Array(1,0), density: 16.65 }\n_MATERIALS[_MATERIALS.length] = { name :  'Tungsten'  , elements: new Array(  'W' ), fractions : new Array(1,0), density: 19.25 }\n_MATERIALS[_MATERIALS.length] = { name :  'Rhenium' , elements: new Array(  'Re'  ), fractions : new Array(1,0), density: 21.02 }\n_MATERIALS[_MATERIALS.length] = { name :  'Osmium'  , elements: new Array(  'Os'  ), fractions : new Array(1,0), density: 22.61 }\n_MATERIALS[_MATERIALS.length] = { name :  'Iridium' , elements: new Array(  'Ir'  ), fractions : new Array(1,0), density: 22.65 }\n_MATERIALS[_MATERIALS.length] = { name :  'Platinum'  , elements: new Array(  'Pt'  ), fractions : new Array(1,0), density: 21.46 }\n_MATERIALS[_MATERIALS.length] = { name :  'Gold'  , elements: new Array(  'Au'  ), fractions : new Array(1,0), density: 19.28 }\n_MATERIALS[_MATERIALS.length] = { name :  'Mercury' , elements: new Array(  'Hg'  ), fractions : new Array(1,0), density: 13.53 }\n_MATERIALS[_MATERIALS.length] = { name :  'Thallium'  , elements: new Array(  'Tl'  ), fractions : new Array(1,0), density: 11.85 }\n_MATERIALS[_MATERIALS.length] = { name :  'Lead'  , elements: new Array(  'Pb'  ), fractions : new Array(1,0), density: 11.34 }\n_MATERIALS[_MATERIALS.length] = { name :  'Bismuth' , elements: new Array(  'Bi'  ), fractions : new Array(1,0), density: 9.81  }\n_MATERIALS[_MATERIALS.length] = { name :  'Radium'  , elements: new Array(  'Ra'  ), fractions : new Array(1,0), density: 5.5 }\n_MATERIALS[_MATERIALS.length] = { name :  'Thorium' , elements: new Array(  'Th'  ), fractions : new Array(1,0), density: 11.72 }\n_MATERIALS[_MATERIALS.length] = { name :  'Protactinium'  , elements: new Array(  'Pa'  ), fractions : new Array(1,0), density: 15.37 }\n_MATERIALS[_MATERIALS.length] = { name :  'Uranium' , elements: new Array(  'U' ), fractions : new Array(1,0), density: 18.95 }\n\/\/ Composites\n_MATERIALS[_MATERIALS.length] = { name: \"Glass, SiO2\", elements: new Array(\"Si\", \"O\"), fractions: new Array(1, 2), density : 2.2}\n_MATERIALS[_MATERIALS.length] = { name: \"Lithium fluoride, LiF\", elements: new Array(\"Li\", \"F\"), fractions: new Array(1, 1), density : 2.635 }\n_MATERIALS[_MATERIALS.length] = { name: \"Boron carbide, B4C\", elements: new Array(\"B\", \"C\"), fractions: new Array(4, 1), density : 2.52 }\n_MATERIALS[_MATERIALS.length] = { name: \"Sapphire, Al2O3\"     , elements: new Array(\"Al\", \"O\"), fractions: new Array(2, 3), density : 3.97 }\n_MATERIALS[_MATERIALS.length] = { name: \"Beryllium oxide, BeO\", elements: new Array(\"Be\", \"O\"), fractions: new Array(1, 1), density : 3.01 }\n_MATERIALS[_MATERIALS.length] = { name: \"Water , H2O\"         , elements: new Array(\"H\", \"O\"), fractions: new Array(2, 1), density: 1}\n_MATERIALS[_MATERIALS.length] = { name: \"Ice, H2O\"            , elements: new Array(\"H\", \"O\"), fractions: new Array(2, 1), density: 0.9167}\n_MATERIALS[_MATERIALS.length] = { name: \"Deuterium, D2 (solid)\", elements: new Array(\"2H\"), fractions: new Array(1,0), density: 0.195 }\n_MATERIALS[_MATERIALS.length] = { name: \"Heavy water, D2O (liquid)\", elements: new Array(\"2H\", \"O\"), fractions: new Array(2, 1), density: 0.102}\n\nvar _COUNTER = 0;\n\n\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\n\/\/\/ WEB PAGE SETTINGS\n\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\n\n\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\n\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\nfunction Start()\n{\nsetMaterialDb()\nresetEntry()\n}\n\n\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\n\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\n\nfunction setMaterialDb()\n{\nvar sel = document.getElementById(\"idMaterialDB\");\nvar i\nsel.options.length=1\nfor(i=0; i<_MATERIALS.length; i++) sel.options[i+1] = new Option(_MATERIALS[i].name, i, true, false)\n}\n\n\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\n\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\nfunction readCompound()\n{\nvar objBody = document.getElementById(\"Toto\");\nvar i\nvar sel = document.getElementById(\"idMaterialDB\");\nvar val = sel.options[sel.selectedIndex].value;\nvar n = _MATERIALS[val].elements.length\nfor(i=0; i<n;i++)\n  {\n  document.getElementById(\"Elem\"+i).value = _MATERIALS[val].elements[i]\n  document.getElementById(\"Frac\"+i).value = _MATERIALS[val].fractions[i]\n  document.getElementById(\"Chk\"+i).checked=true\n  } \nfor(i=n; i<5;i++)\n  {\n  document.getElementById(\"Elem\"+i).value = \"\" \n  document.getElementById(\"Frac\"+i).value = \"\" \n  document.getElementById(\"Chk\"+i).checked=false\n  }  \ndocument.getElementById(\"Density\").value = _MATERIALS[val].density;\ninvalidFermi()\n}\n\n\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\n\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\n\nfunction resetEntry()\n{\nvar i\nfor(i=0; i<5;i++)\n  {\n  document.getElementById(\"Elem\"+i).value = \"\" \n  document.getElementById(\"Frac\"+i).value = \"\" \n  document.getElementById(\"Chk\"+i).checked=false\n  } \ndocument.getElementById(\"Density\").value = \"\" \ndocument.getElementById(\"Velocity\").value = \"\" \ndocument.getElementById(\"Fermi\").value = \"\" \ndocument.getElementById(\"Critical\").value = \"\" \ninvalidFermi()\n}\n\n\n\n\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\n\/\/\/ MAIN CODE\n\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\nfunction runAll()\n{\nrunFermi()\nrunProp()\n}\n\n\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\n\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\/\n\nfunction readData()\n{\nvar i;\nvar j;\nvar u;\nvar res= new Array(new Array(), new Array(), new Array());\nvar cnt = 0\nfor(i=0; i<5; i++)\n  {\n  box   = document.getElementById(\"Chk\"+i);\n  if(box.checked)\n    {\n    res[1][cnt] = document.getElementById(\"Elem\"+i).value\n    res[2][cnt] = parseFloat(document.getElementById(\"Frac\"+i).value)\n    for(u=0; u< _NEUTRONDATA.length; u++)\n      {\n      if(res[1][cnt]==_NEUTRONDATA[u].element) {res[0][cnt]=u; break;}\n      res[0][cnt] = -1\n      }\n    cnt++;\n    }\n  }\nreturn res;  \n}\n\nfunction runFermi()\n{\n\/\/document.getElementById(\"Fermi\").value = 25\ndocument.getElementById(\"Critical\").value = 25\n\/\/ get fit parameters...\nvar density   = parseFloat(document.getElementById(\"Density\").value)\nvar D = readData()\nvar i\nvar m = 0 \nfor(i=0; i<D[0].length; i++) m = m + D[2][i]*_NEUTRONDATA[D[0][i]].mass\nvar nat = density\/m\nvar fermi = 0\nvar fermierr = 0\nfor(i=0; i<D[0].length; i++) \n  {\n  fermi = fermi + D[2][i]*nat * _NEUTRONDATA[D[0][i]].slength\n  fermierr = fermierr + (D[2][i]*nat * _NEUTRONDATA[D[0][i]].errslength)*(D[2][i]*nat * _NEUTRONDATA[D[0][i]].errslength)\n  }\nfermi = fermi*156.807427767593\nfermierr = Math.sqrt(fermierr)*156.807427767593\nvar crit=0\nvar criterr = 0\nif(fermi>0) \n  {\n  crit = Math.sqrt(fermi)*0.437696168507958 \n  criterr = 0.5*fermierr\/fermi*crit\n  }\ndocument.getElementById(\"Fermi\").value = fermi.toPrecision(4)+\" \u00b1 \"+fermierr.toPrecision(2)\ndocument.getElementById(\"Critical\").value = crit.toPrecision(4)+\" \u00b1 \"+criterr.toPrecision(2)\ndocument.getElementById(\"Fermi\").style=\"background-color:chartreuse\"\ndocument.getElementById(\"Critical\").style=\"background-color:chartreuse\"\n}\n\nfunction invalidPath()\n{\ndocument.getElementById(\"Path\").style=\"background-color:red\"\n}\n\nfunction invalidFermi()\n{\ndocument.getElementById(\"Fermi\").style=\"background-color:red\"\ndocument.getElementById(\"Critical\").style=\"background-color:red\"\ninvalidPath()\n}\n\nfunction runProp()\n{\n\/\/ get fit parameters...\nvar speed     = parseFloat(document.getElementById(\"Velocity\").value)\nvar density   = parseFloat(document.getElementById(\"Density\").value)\nvar D = readData()\nvar i\nvar m = 0 \nfor(i=0; i<D[0].length; i++) m = m + D[2][i]*_NEUTRONDATA[D[0][i]].mass\nvar nat = density\/m\nvar path = 0\nfor(i=0; i<D[0].length; i++) path = path + D[2][i]*nat * _NEUTRONDATA[D[0][i]].xsabs\npath = 10000\/(path * 1324.84\/speed)\ndocument.getElementById(\"Path\").value = path.toPrecision(4)\ndocument.getElementById(\"Path\").style=\"background-color:chartreuse\"\n}\n\nwindow.onload=Start\n<\/script>\n\n<center>\n<td>Predefined compounds :<\/td>\n<td><select id=\"idMaterialDB\" onchange=\"readCompound()\"><option value=\"-1\" selected=\"selected\">-------------------<\/option><\/select><\/td>\n<table>\n<tbody>\n<tr>\n<td><\/td>\n<td>Element<\/td>\n<td>Fraction<\/td>\n<\/tr>\n<tr>\n<td align=\"right\"><input name=\"Chk0\" id=\"Chk0\" size=\"5\"  type=\"checkbox\" onchange=\"invalidFermi()\" ><\/td>\n<td><input name=\"elem0\" id=\"Elem0\" value=\"\" size=\"12\" type=\"text\" onchange=\"invalidFermi()\"><\/td>\n<td><input name=\"frac0\" id=\"Frac0\" value=\"\" size=\"12\" type=\"text\" onchange=\"invalidFermi()\"><\/td>\n<\/tr>\n<tr>\n<td align=\"right\"><input name=\"Chk1\" id=\"Chk1\" size=\"5\"  type=\"checkbox\"  onchange=\"invalidFermi()\"><\/td>\n<td><input name=\"elem1\" id=\"Elem1\" value=\"\" size=\"12\" type=\"text\" onchange=\"invalidFermi()\"><\/td>\n<td><input name=\"frac1\" id=\"Frac1\" value=\"\" size=\"12\" type=\"text\" onchange=\"invalidFermi()\"><\/td>\n<\/tr>\n<tr>\n<td align=\"right\"><input name=\"Chk2\" id=\"Chk2\"  size=\"5\"  type=\"checkbox\" onchange=\"invalidFermi()\"><\/td>\n<td><input name=\"elem2\" id=\"Elem2\" value=\"\" size=\"12\" type=\"text\" onchange=\"invalidFermi()\"><\/td>\n<td><input name=\"frac2\" id=\"Frac2\" value=\"\" size=\"12\" type=\"text\" onchange=\"invalidFermi()\"><\/td>\n<\/tr>\n<tr>\n<td align=\"right\"><input name=\"Chk3\"  id=\"Chk3\"  size=\"5\"  type=\"checkbox\" onchange=\"invalidFermi()\"><\/td>\n<td><input name=\"elem3\" id=\"Elem3\" value=\"\" size=\"12\" type=\"text\" onchange=\"invalidFermi()\"><\/td>\n<td><input name=\"frac3\" id=\"Frac3\" value=\"\" size=\"12\" type=\"text\" onchange=\"invalidFermi()\"><\/td>\n<\/tr>\n<tr>\n<td align=\"right\"><input name=\"Chk4\"  id=\"Chk4\"size=\"5\"  type=\"checkbox\" onchange=\"invalidFermi()\"><\/td>\n<td><input name=\"elem4\" id=\"Elem4\" value=\"\" size=\"12\" type=\"text\" onchange=\"invalidFermi()\"><\/td>\n<td><input name=\"frac4\" id=\"Frac4\" value=\"\" size=\"12\" type=\"text\" onchange=\"invalidFermi()\"><\/td>\n<\/tr>\n<tr>\n<td>Density :<\/td>\n<td><input name=\"density\" id=\"Density\" value=\"\" size=\"12\"  type=\"text\" onchange=\"invalidFermi()\"><\/td>\n<td>g.cm<sup>-3<\/sup><\/td>\n<\/tr>\n<tr>\n<td>Velocity :<\/td>\n<td><input name=\"velocity\" id=\"Velocity\" value=\"\" size=\"12\"  type=\"text\" onchange=\"invalidPath()\"><\/td>\n<td>m\/s<\/td>\n<\/tr>\n<tr><\/tr>\n<tr>\n<td>Fermi potential :<\/td>\n<td><input name=\"fermi\" id=\"Fermi\" value=\"\" size=\"12\"  type=\"text\" style=\"background-color:red\" readonly><\/td>\n<td>neV<\/td>\n<\/tr>\n<tr>\n<td>Critical velocity :<\/td>\n<td><input name=\"critical\" id=\"Critical\" value=\"\" size=\"12\"  type=\"text\" style=\"background-color:red\" readonly><\/td>\n<td>m\/s<\/td>\n<\/tr>\n<tr>\n<td>Mean free path :<\/td>\n<td><input name=\"path\" id=\"Path\" value=\"\" size=\"12\"  type=\"text\" style=\"background-color:red\" readonly><\/td>\n<td>\u00b5m<\/td>\n<\/tr>\n<tr>\n<td><\/td>\n<td><input id=\"idResButton\" value=\"      Reset      \" type=\"button\" onclick=\"resetEntry()\" size=\"20\"><\/td> \n<td><input id=\"idRunButton\" value=\"     Compute     \" type=\"button\" onclick=\"runAll()\"  size=\"20\" background=\"FF\"><\/td>\n<\/tbody>\n<\/table>\n\n<div><p id=\"Toto\"><\/p>\n\n<br><hr>Credits: Benoit Clement, Guillaume Pignol, Gilles Qu\u00e9m\u00e9ner<\/center><center>The neutron-matter interactions are calculated from the recommanded values of the neutron scattering lenghts and absorption cross sections in <a target=\"_blank\" href=\"http:\/\/www.ati.ac.at\/~neutropt\/scattering\/table.html\" rel=\"noopener\">http:\/\/www.ati.ac.at\/~neutropt\/scattering\/table.html<\/a><br><br><\/center>     <\/div>\n<\/div>\n<\/main>\n<\/body>\n<\/html>\n\n","protected":false},"excerpt":{"rendered":"<p>Outil de calcul des potentiels de Fermi et des longueurs d&rsquo;interaction dans des mat\u00e9riaux purs ou composites. Predefined compounds : &#8212;&#8212;&#8212;&#8212;&#8212;&#8212;- Element Fraction Density : g.cm-3 Velocity : m\/s Fermi potential : neV Critical velocity : m\/s Mean free path : \u00b5m Credits: Benoit Clement, Guillaume Pignol, Gilles Qu\u00e9m\u00e9nerThe neutron-matter interactions are calculated from the&hellip;<\/p>\n","protected":false},"author":7,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"footnotes":""},"class_list":["post-1061","page","type-page","status-publish","hentry"],"_links":{"self":[{"href":"https:\/\/lpsc-wordpress.in2p3.fr\/index.php?rest_route=\/wp\/v2\/pages\/1061","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/lpsc-wordpress.in2p3.fr\/index.php?rest_route=\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/lpsc-wordpress.in2p3.fr\/index.php?rest_route=\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/lpsc-wordpress.in2p3.fr\/index.php?rest_route=\/wp\/v2\/users\/7"}],"replies":[{"embeddable":true,"href":"https:\/\/lpsc-wordpress.in2p3.fr\/index.php?rest_route=%2Fwp%2Fv2%2Fcomments&post=1061"}],"version-history":[{"count":8,"href":"https:\/\/lpsc-wordpress.in2p3.fr\/index.php?rest_route=\/wp\/v2\/pages\/1061\/revisions"}],"predecessor-version":[{"id":1184,"href":"https:\/\/lpsc-wordpress.in2p3.fr\/index.php?rest_route=\/wp\/v2\/pages\/1061\/revisions\/1184"}],"wp:attachment":[{"href":"https:\/\/lpsc-wordpress.in2p3.fr\/index.php?rest_route=%2Fwp%2Fv2%2Fmedia&parent=1061"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}