Ignore:
Timestamp:
Apr 6, 2009, 12:21:12 PM (15 years ago)
Author:
garnier
Message:

update processes

File:
1 edited

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Removed

  • trunk/source/processes/electromagnetic/standard/src/G4WaterStopping.cc

    r819 r961  
    2424// ********************************************************************
    2525//
    26 // $Id: G4WaterStopping.cc,v 1.2 2006/06/29 19:53:40 gunter Exp $
    27 // GEANT4 tag $Name: geant4-09-01-patch-02 $
     26// $Id: G4WaterStopping.cc,v 1.11 2008/12/18 13:01:38 gunter Exp $
     27// GEANT4 tag $Name: geant4-09-02-ref-02 $
    2828
    2929//---------------------------------------------------------------------------
     
    4848//....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
    4949
    50 G4WaterStopping::G4WaterStopping(G4EmCorrections* corr)
     50G4WaterStopping::G4WaterStopping(G4EmCorrections* corr, G4bool splineFlag)
    5151{
     52  spline = splineFlag;
    5253  Initialise(corr);
    5354}
     
    5657
    5758G4WaterStopping::~G4WaterStopping()
    58 {
    59   int n = dedx.size();
    60   for(int i=0; i<n; i++) {delete dedx[i];}
    61 }
     59{}
    6260
    6361//....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
     
    6664{
    6765  G4double res = 0.0;
     66  if(iz < 3 || iz > 18) return res;
    6867  G4bool b;
    69   G4int idx = 0;
    70   for(; idx<8; idx++) {
    71     if(iz == Z[idx]) {
    72       res = (dedx[idx])->GetValue(energy, b);
    73       break;
    74     }
     68  G4int idx = iz - 3;
     69  G4double scaledEnergy = energy/A[idx];
     70  G4double emin = 0.025*MeV;
     71  if(scaledEnergy < emin) {
     72    res = (dedx[idx])->GetValue(emin, b)*std::sqrt(scaledEnergy/emin);
     73  } else {
     74    res = (dedx[idx])->GetValue(scaledEnergy, b);
    7575  }
    7676  return res;
    77  }
     77}
     78
     79//....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
     80
     81void G4WaterStopping::AddData(G4double* energy, G4double* stoppower,
     82                              G4double factor)
     83{
     84  G4LPhysicsFreeVector* pv = new G4LPhysicsFreeVector(53,energy[0],energy[52]);
     85  pv->SetSpline(spline);
     86  dedx.push_back(pv);
     87  for(G4int i=0;i<53;i++) {
     88    pv->PutValues(i,energy[i],stoppower[i]*factor);
     89  }
     90}
     91
     92//....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
    7893
    7994void G4WaterStopping::Initialise(G4EmCorrections* corr)
     
    8196  G4int i;
    8297  //..List of ions
    83   G4int zz[8] = {3, 4, 5, 6, 7, 8, 9, 10 };
    84   G4int aa[8] = {7, 9, 11, 12, 14, 16, 19, 20 };
    85 
    86   for(i=0; i<8; i++) {
     98  G4int zz[16] = {3, 4, 5, 6, 7, 8, 9, 10,11,12,13,14,15,16,17,18};
     99  G4int aa[16] = {7, 9, 11, 12, 14, 16, 19, 20, 23, 24, 27, 28,31,32, 35,40};
     100  // G4double A_Ion[16] = {6.941,9.0122,10.811,12.011,14.007,15.999,18.998,20.180,22.990,24.305,26.982,28.086,30.974,32.065,35.453,39.948};
     101  for(i=0; i<16; i++) {
    87102    Z[i] = zz[i];
    88     A[i] = aa[i];
     103    A[i] = G4double(aa[i]);
    89104  }
    90105  //..Reduced energies
    91   G4double E[53] = {0.025,0.03,0.04,0.05,0.06,0.07,0.08,0.09,0.1,0.15,0.2,0.25,0.3,0.4,0.5,0.6,0.7,0.8,0.9,1,1.5,2,2.5,3,4,5,6,7,8,9,10,15,20,25,30,40,50,60,70,80,90,100,150,200,250
    92 ,300,400,500,600,700,800,900,1000};
     106  G4double E[53] = {0.025,0.03,0.04,0.05,0.06,0.07,0.08,0.09,0.1,0.15,0.2,0.25,0.3,0.4,0.5,0.6,0.7,0.8,0.9,1,1.5,2,2.5,3,4,5,6,7,8,9,10,15,20,25,30,40,50,60,70,80,90,100,150,200,250,300,400,500,600,700,800,900,1000};
    93107  for(i=0; i<53; i++) {E[i] *= MeV;}
    94108
    95   //..Li
    96   G4double Li[53] = {2.626,2.84,3.191,3.461,3.665,3.817,3.927,4.004,4.056,4.102,3.998,3.853,3.702,3.413,3.158,2.934,2.739,2.567,2.415,2.28,1.782,1.465,1.247,1.087,0.8706,0.7299,0.631,0.5575,0.5005,0.455,0.4178,0.3004,0.2376,0.1981,0.1708,0.1354,0.1132,0.09803,0.08692,0.07842,0.07171,0.06627,0.0495,0.04085,0.03557,0.03203,0.0276,0.02498,0.02327,0.0221,0.02126,0.02064,0.02016};
    97   G4LPhysicsFreeVector* pv = new G4LPhysicsFreeVector(53,E[0],E[52]);
    98   dedx.push_back(pv);
    99   for(i=0; i<53; i++) { pv->PutValues(i,E[i],Li[i]*1000.*MeV/cm); }
     109  G4double factor = 1000.*MeV/cm;
    100110
    101   //..Be
    102   G4double Be[53] = {3.272,3.565,4.061,4.463,4.79,5.052,5.258,5.419,5.542,5.803,5.787,5.675,5.529,5.215,4.912,4.634,4.381,4.152,3.944,3.756,3.026,2.533,2.179,1.913,1.542,1.296,1.122,0.9911,0.8898,0.8087,0.7423,0.5335,0.4219,0.3518,0.3034,0.2406,0.2013,0.1743,0.1545,0.1394,0.1275,0.1178,0.08805,0.07266,0.06328,0.05698,0.0491,0.04444,0.04141,0.03933,0.03783,0.03672,0.03588};
    103   pv = new G4LPhysicsFreeVector(53,E[0],E[52]);
    104   dedx.push_back(pv);
    105   for(i=0; i<53; i++) { pv->PutValues(i,E[i],Be[i]*1000.*MeV/cm); }
     111G4double G4_WATER_Li [53]={2.626, 2.84, 3.191, 3.461, 3.665, 3.817, 3.927, 4.004, 4.056, 4.102, 3.998, 3.853, 3.702, 3.413, 3.158, 2.934, 2.739, 2.567, 2.415, 2.28, 1.782, 1.465, 1.247, 1.087, 0.8706, 0.7299, 0.631, 0.5575, 0.5005, 0.455, 0.4178, 0.3004, 0.2376, 0.1981, 0.1708, 0.1354, 0.1132, 0.09803, 0.08692, 0.07842, 0.07171, 0.06627, 0.0495, 0.04085, 0.03557, 0.03203, 0.0276, 0.02498, 0.02327, 0.0221, 0.02126, 0.02064, 0.02016, };
     112AddData(E,G4_WATER_Li,factor);
    106113
    107   //..B
    108   G4double B[53] = {3.773,4.142,4.776,5.304,5.749,6.122,6.431,6.684,6.89,7.432,7.551,7.505,7.391,7.091,6.772,6.463,6.172,5.901,5.65,5.418,4.484,3.817,3.322,2.94,2.392,2.02,1.752,1.549,1.391,1.265,1.161,0.8332,0.6587,0.5492,0.4737,0.3757,0.3144,0.2723,0.2415,0.2179,0.1993,0.1842,0.1376,0.1136,0.09894,0.08909,0.07678,0.0695,0.06477,0.06151,0.05916,0.05743,0.05611};
    109   pv = new G4LPhysicsFreeVector(53,E[0],E[52]);
    110   dedx.push_back(pv);
    111   for(i=0; i<53; i++) { pv->PutValues(i,E[i],B[i]*1000.*MeV/cm); }
     114G4double G4_WATER_Be [53]={3.272, 3.565, 4.061, 4.463, 4.79, 5.052, 5.258, 5.419, 5.542, 5.803, 5.787, 5.675, 5.529, 5.215, 4.912, 4.634, 4.381, 4.152, 3.944, 3.756, 3.026, 2.533, 2.179, 1.913, 1.542, 1.296, 1.122, 0.9911, 0.8898, 0.8087, 0.7423, 0.5335, 0.4219, 0.3518, 0.3034, 0.2406, 0.2013, 0.1743, 0.1545, 0.1394, 0.1275, 0.1178, 0.08805, 0.07266, 0.06328, 0.05698, 0.0491, 0.04444, 0.04141, 0.03933, 0.03783, 0.03672, 0.03588, };
     115AddData(E,G4_WATER_Be,factor);
    112116
    113   //..C
    114   G4double C[53] = {4.154,4.593,5.358,6.009,6.568,7.049,7.46,7.809,8.103,8.968,9.262,9.311,9.25,8.994,8.68,8.358,8.045,7.747,7.465,7.199,6.093,5.269,4.636,4.137,3.403,2.891,2.516,2.23,2.004,1.823,1.673,1.2,0.9483,0.7904,0.6817,0.5406,0.4525,0.392,0.3477,0.3138,0.287,0.2653,0.1983,0.1637,0.1426,0.1284,0.1107,0.1002,0.09335,0.08865,0.08528,0.08278,0.08088};
    115   pv = new G4LPhysicsFreeVector(53,E[0],E[52]);
    116   dedx.push_back(pv);
    117   for(i=0; i<53; i++) { pv->PutValues(i,E[i],C[i]*1000.*MeV/cm); }
     117G4double G4_WATER_B [53]={3.773, 4.142, 4.776, 5.304, 5.749, 6.122, 6.431, 6.684, 6.89, 7.432, 7.551, 7.505, 7.391, 7.091, 6.772, 6.463, 6.172, 5.901, 5.65, 5.418, 4.484, 3.817, 3.322, 2.94, 2.392, 2.02, 1.752, 1.549, 1.391, 1.265, 1.161, 0.8332, 0.6587, 0.5492, 0.4737, 0.3757, 0.3144, 0.2723, 0.2415, 0.2179, 0.1993, 0.1842, 0.1376, 0.1136, 0.09894, 0.08909, 0.07678, 0.0695, 0.06477, 0.06151, 0.05916, 0.05743, 0.05611, };
     118AddData(E,G4_WATER_B,factor);
    118119
    119   //..N
    120   G4double N[53] = {4.49,4.984,5.86,6.616,7.276,7.854,8.36,8.799,9.179,10.39,10.89,11.07,11.08,10.9,10.61,10.3,9.974,9.66,9.357,9.068,7.823,6.859,6.097,5.484,4.56,3.9,3.408,3.029,2.727,2.482,2.28,1.636,1.291,1.076,0.9274,0.7354,0.6156,0.5333,0.4731,0.427,0.3906,0.3611,0.27,0.2229,0.1942,0.1749,0.1507,0.1365,0.1272,0.1208,0.1162,0.1128,0.1102};
    121   pv = new G4LPhysicsFreeVector(53,E[0],E[52]);
    122   dedx.push_back(pv);
    123   for(i=0; i<53; i++) { pv->PutValues(i,E[i],N[i]*1000.*MeV/cm); }
     120G4double G4_WATER_C [53]={4.154, 4.593, 5.358, 6.009, 6.568, 7.049, 7.46, 7.809, 8.103, 8.968, 9.262, 9.311, 9.25, 8.994, 8.68, 8.358, 8.045, 7.747, 7.465, 7.199, 6.093, 5.269, 4.636, 4.137, 3.403, 2.891, 2.516, 2.23, 2.004, 1.823, 1.673, 1.2, 0.9483, 0.7904, 0.6817, 0.5406, 0.4525, 0.392, 0.3477, 0.3138, 0.287, 0.2653, 0.1983, 0.1637, 0.1426, 0.1284, 0.1107, 0.1002, 0.09335, 0.08865, 0.08528, 0.08278, 0.08088, };
     121AddData(E,G4_WATER_C,factor);
    124122
    125   //..O
    126   G4double O[53] = {4.778,5.321,6.298,7.152,7.907,8.578,9.173,9.7,10.16,11.73,12.46,12.78,12.89,12.81,12.57,12.27,11.95,11.63,11.32,11.01,9.659,8.571,7.691,6.967,5.854,5.042,4.427,3.945,3.56,3.245,2.983,2.142,1.689,1.406,1.212,0.9602,0.8037,0.6963,0.6178,0.5577,0.5102,0.4716,0.3527,0.2913,0.2538,0.2285,0.197,0.1784,0.1663,0.1579,0.1519,0.1475,0.1441};
    127   pv = new G4LPhysicsFreeVector(53,E[0],E[52]);
    128   dedx.push_back(pv);
    129   for(i=0; i<53; i++) { pv->PutValues(i,E[i],O[i]*1000.*MeV/cm); }
     123G4double G4_WATER_N [53]={4.49, 4.984, 5.86, 6.616, 7.276, 7.854, 8.36, 8.799, 9.179, 10.39, 10.89, 11.07, 11.08, 10.9, 10.61, 10.3, 9.974, 9.66, 9.357, 9.068, 7.823, 6.859, 6.097, 5.484, 4.56, 3.9, 3.408, 3.029, 2.727, 2.482, 2.28, 1.636, 1.291, 1.076, 0.9274, 0.7354, 0.6156, 0.5333, 0.4731, 0.427, 0.3906, 0.3611, 0.27, 0.2229, 0.1942, 0.1749, 0.1507, 0.1365, 0.1272, 0.1208, 0.1162, 0.1128, 0.1102, };
     124AddData(E,G4_WATER_N,factor);
    130125
    131   //..F
    132   G4double F[53] = {4.992, 5.575, 6.637, 7.578, 8.418, 9.171, 9.847, 10.45, 11, 12.9, 13.88, 14.35, 14.56, 14.59, 14.4, 14.13, 13.83, 13.51, 13.19, 12.87, 11.44, 10.26, 9.279, 8.463, 7.187, 6.237, 5.506, 4.928, 4.461, 4.076, 3.753, 2.707, 2.137, 1.779, 1.533, 1.215, 1.017, 0.8809, 0.7816, 0.7056, 0.6456, 0.5969, 0.4466, 0.3688, 0.3213, 0.2894, 0.2496, 0.2259,
    133 0.2106, 0.2, 0.1924, 0.1868, 0.1825};
    134   pv = new G4LPhysicsFreeVector(53,E[0],E[52]);
    135   dedx.push_back(pv);
    136   for(i=0; i<53; i++) { pv->PutValues(i,E[i],F[i]*1000.*MeV/cm); }
     126G4double G4_WATER_O [53]={4.778, 5.321, 6.298, 7.152, 7.907, 8.578, 9.173, 9.7, 10.16, 11.73, 12.46, 12.78, 12.89, 12.81, 12.57, 12.27, 11.95, 11.63, 11.32, 11.01, 9.659, 8.571, 7.691, 6.967, 5.854, 5.042, 4.427, 3.945, 3.56, 3.245, 2.983, 2.142, 1.689, 1.406, 1.212, 0.9602, 0.8037, 0.6963, 0.6178, 0.5577, 0.5102, 0.4716, 0.3527, 0.2913, 0.2538, 0.2285, 0.197, 0.1784, 0.1663, 0.1579, 0.1519, 0.1475, 0.1441, };
     127AddData(E,G4_WATER_O,factor);
    137128
    138   //..Ne
    139   G4double Ne[53] = {5.182, 5.797, 6.931, 7.948, 8.865, 9.693, 10.044, 11.12, 11.74, 13.98, 15.21, 15.85, 16.17, 16.33, 16.21, 15.98, 15.69, 15.38, 15.06, 14.74, 13.24, 11.98, 10.91, 10.01, 8.584, 7.503, 6.66, 5.986, 5.436, 4.979, 4.595, 3.332, 2.635, 2.195, 1.892, 1.499, 1.255, 1.087, 0.9646, 0.8709, 0.7969, 0.7368, 0.5514, 0.4555, 0.3969, 0.3576, 0.3083, 0.2792, 0.2602, 0.2472, 0.2378, 0.2308, 0.2255};
    140   pv = new G4LPhysicsFreeVector(53,E[0],E[52]);
    141   dedx.push_back(pv);
    142   for(i=0; i<53; i++) { pv->PutValues(i,E[i],Ne[i]*1000.*MeV/cm); }
     129G4double G4_WATER_F [53]={4.992, 5.575, 6.637, 7.578, 8.418, 9.171, 9.847, 10.45, 11, 12.9, 13.88, 14.35, 14.56, 14.59, 14.4, 14.13, 13.83, 13.51, 13.19, 12.87, 11.44, 10.26, 9.279, 8.463, 7.187, 6.237, 5.506, 4.928, 4.461, 4.076, 3.753, 2.707, 2.137, 1.779, 1.533, 1.215, 1.017, 0.8809, 0.7816, 0.7056, 0.6456, 0.5969, 0.4466, 0.3688, 0.3213, 0.2894, 0.2496, 0.2259, 0.2106, 0.2, 0.1924, 0.1868, 0.1825, };
     130AddData(E,G4_WATER_F,factor);
     131
     132G4double G4_WATER_Ne [53]={5.182, 5.797, 6.931, 7.948, 8.865, 9.693, 10.44, 11.12, 11.74, 13.98, 15.21, 15.85, 16.17, 16.33, 16.21, 15.98, 15.69, 15.38, 15.06, 14.74, 13.24, 11.98, 10.91, 10.01, 8.584, 7.503, 6.66, 5.986, 5.436, 4.979, 4.595, 3.332, 2.635, 2.195, 1.892, 1.499, 1.255, 1.087, 0.9646, 0.8709, 0.7969, 0.7368, 0.5514, 0.4555, 0.3969, 0.3576, 0.3083, 0.2792, 0.2602, 0.2472, 0.2378, 0.2308, 0.2255, };
     133AddData(E,G4_WATER_Ne,factor);
     134
     135G4double G4_WATER_Na [53]={5.352, 5.998, 7.203, 8.3, 9.298, 10.21, 11.04, 11.81, 12.5, 15.13, 16.68, 17.56, 18.04, 18.43, 18.44, 18.29, 18.05, 17.78, 17.48, 17.18, 15.67, 14.32, 13.15, 12.14, 10.5, 9.226, 8.218, 7.401, 6.728, 6.166, 5.69, 4.112, 3.237, 2.686, 2.307, 1.821, 1.521, 1.317, 1.168, 1.054, 0.9644, 0.8917, 0.6674, 0.5514, 0.4806, 0.4329, 0.3734, 0.3381, 0.3152, 0.2993, 0.288, 0.2796, 0.2732, };
     136AddData(E,G4_WATER_Na,factor);
     137
     138G4double G4_WATER_Mg [53]={5.542, 6.193, 7.42, 8.551, 9.59, 10.54, 11.42, 12.23, 12.98, 15.85, 17.62, 18.66, 19.26, 19.76, 19.83, 19.7, 19.47, 19.2, 18.89, 18.58, 17.02, 15.62, 14.41, 13.36, 11.64, 10.3, 9.233, 8.362, 7.64, 7.033, 6.516, 4.777, 3.792, 3.162, 2.725, 2.159, 1.806, 1.565, 1.388, 1.254, 1.147, 1.061, 0.7944, 0.6565, 0.5722, 0.5156, 0.4447, 0.4027, 0.3754, 0.3566, 0.343, 0.333, 0.3254, };
     139AddData(E,G4_WATER_Mg,factor);
     140
     141G4double G4_WATER_Al [53]={5.724, 6.39, 7.649, 8.82, 9.905, 10.91, 11.84, 12.71, 13.51, 16.66, 18.69, 19.93, 20.68, 21.38, 21.56, 21.5, 21.32, 21.07, 20.79, 20.48, 18.91, 17.47, 16.19, 15.08, 13.24, 11.78, 10.61, 9.641, 8.835, 8.153, 7.569, 5.583, 4.444, 3.71, 3.199, 2.534, 2.12, 1.836, 1.629, 1.471, 1.346, 1.245, 0.9325, 0.7707, 0.6719, 0.6054, 0.5223, 0.473, 0.441, 0.4189, 0.403, 0.3912, 0.3823, };
     142AddData(E,G4_WATER_Al,factor);
     143
     144G4double G4_WATER_Si [53]={5.905, 6.583, 7.868, 9.073, 10.2, 11.25, 12.23, 13.14, 13.99, 17.4, 19.66, 21.1, 22.01, 22.91, 23.21, 23.22, 23.09, 22.87, 22.61, 22.32, 20.76, 19.28, 17.95, 16.78, 14.83, 13.26, 11.99, 10.94, 10.06, 9.304, 8.656, 6.43, 5.135, 4.294, 3.705, 2.938, 2.458, 2.129, 1.889, 1.706, 1.561, 1.444, 1.082, 0.8942, 0.7796, 0.7026, 0.6061, 0.549, 0.5119, 0.4862, 0.4678, 0.4542, 0.4438, };
     145AddData(E,G4_WATER_Si,factor);
     146
     147G4double G4_WATER_P [53]={6.12, 6.81, 8.118, 9.352, 10.51, 11.61, 12.63, 13.58, 14.48, 18.13, 20.63, 22.28, 23.34, 24.47, 24.91, 25.02, 24.95, 24.78, 24.55, 24.28, 22.76, 21.26, 19.89, 18.67, 16.59, 14.92, 13.54, 12.39, 11.42, 10.59, 9.867, 7.367, 5.896, 4.935, 4.259, 3.376, 2.824, 2.445, 2.169, 1.959, 1.792, 1.657, 1.242, 1.027, 0.8954, 0.807, 0.6963, 0.6308, 0.5881, 0.5587, 0.5375, 0.5219, 0.51, };
     148AddData(E,G4_WATER_P,factor);
     149
     150G4double G4_WATER_S [53]={6.294, 7, 8.338, 9.604, 10.8, 11.94, 13, 14, 14.94, 18.82, 21.55, 23.41, 24.65, 26.01, 26.6, 26.81, 26.81, 26.69, 26.5, 26.26, 24.79, 23.28, 21.88, 20.61, 18.43, 16.64, 15.16, 13.92, 12.86, 11.95, 11.15, 8.371, 6.715, 5.624, 4.856, 3.847, 3.217, 2.785, 2.47, 2.229, 2.04, 1.886, 1.413, 1.169, 1.019, 0.9187, 0.7929, 0.7183, 0.6697, 0.6362, 0.6122, 0.5944, 0.5808, };
     151AddData(E,G4_WATER_S,factor);
     152
     153G4double G4_WATER_Cl [53]={6.522, 7.237, 8.59, 9.875, 11.1, 12.26, 13.36, 14.39, 15.37, 19.45, 22.4, 24.45, 25.86, 27.46, 28.19, 28.5, 28.57, 28.5, 28.34, 28.13, 26.72, 25.21, 23.78, 22.47, 20.2, 18.32, 16.75, 15.42, 14.28, 13.3, 12.44, 9.392, 7.557, 6.34, 5.479, 4.344, 3.633, 3.145, 2.789, 2.517, 2.303, 2.13, 1.596, 1.32, 1.151, 1.038, 0.8957, 0.8115, 0.7567, 0.7189, 0.6917, 0.6717, 0.6563, };
     154AddData(E,G4_WATER_Cl,factor);
     155
     156G4double G4_WATER_Ar [53]={6.642, 7.369, 8.739, 10.04, 11.28, 12.47, 13.59, 14.66, 15.66, 19.93, 23.08, 25.32, 26.89, 28.72, 29.6, 30.01, 30.15, 30.13, 30, 29.82, 28.46, 26.94, 25.49, 24.15, 21.81, 19.86, 18.22, 16.82, 15.61, 14.57, 13.65, 10.39, 8.394, 7.063, 6.114, 4.859, 4.067, 3.522, 3.125, 2.821, 2.581, 2.387, 1.789, 1.48, 1.291, 1.164, 1.005, 0.9105, 0.8491, 0.8067, 0.7763, 0.7537, 0.7365, };
     157AddData(E,G4_WATER_Ar,factor);
    143158
    144159  if(corr) {
    145     for(i=0; i<8; i++) {corr->AddStoppingData(Z[i], A[i], "G4_WATER", *(dedx[i]));}
     160    for(i=0; i<16; i++) {corr->AddStoppingData(Z[i], aa[i], "G4_WATER", dedx[i]);}
    146161  }
    147162}
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