1 | ********************************************** |
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2 | Geant4 version $Name: emlowen-V09-02-64 $ |
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3 | (06-Apr-2001) |
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4 | Copyright : Geant4 Collaboration |
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5 | ********************************************** |
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6 | Detector Construction is defined |
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7 | HsPhysicsList: <LowEnergy> EMPhysicsList is set |
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8 | HsPhysicsList: <none> HadronicPhysicsList is set |
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9 | Physics List is defined |
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10 | User actions will be initialized |
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11 | hTestPrimaryGeneratorMessenger: Construct |
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12 | hTestPrimaryGeneratorAction is defined |
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13 | EventAction is defined |
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14 | TrackingAction is defined |
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15 | UI interface is started |
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16 | #======================================================= |
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17 | # Macro file "mylar.mac" for the Mylar test by hTest.cc |
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18 | # 10.04.01 V.Ivanchenko |
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19 | #======================================================= |
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20 | /run/verbose 2 |
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21 | /step/verbose 0 |
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22 | /tracking/verbose 0 |
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23 | /stepping/verbose 0 |
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24 | /event/verbose 0 |
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25 | /hTest/verbose 0 |
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26 | # |
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27 | /hTest/physics/cutGamma 0.01 mm |
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28 | /hTest/physics/cutElectron 0.001 mm |
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29 | /hTest/physics/MaxStep 1.0 mm |
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30 | hTestPhysicsList: MaxChargedStep = 1 mm |
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31 | /hTest/physics/EMList LowEnergy |
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32 | /hTest/physics/HadronList LowEnergy |
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33 | HsPhysicsList: <LowEnergy> HadronicPhysicsList is set |
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34 | /hTest/AbsorberMaterial Mylar |
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35 | /hTest/AbsorberThick 0.001 mm |
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36 | /hTest/NumberOfAbsorbers 60 |
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37 | /hTest/WorldMaterial Vacuum |
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38 | /hTest/numberAbsToSave 60 |
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39 | /hTest/HistoName mylar.paw |
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40 | /hTest/NumberOfEvents 1000 |
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41 | # |
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42 | /gun/particle proton |
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43 | /gun/energy 2 MeV |
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44 | |
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45 | Start initialisation |
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46 | userDetector->Construct() start. |
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47 | |
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48 | ***** Table : Nb of materials = 18 ***** |
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49 | |
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50 | Material: Beryllium density: 1.848 g/cm3 temperature: 273.15 K pressure: 1.00 atm RadLength: 35.267 cm |
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51 | ---> Element: Beryllium Z = 4.0 N = 9.0 A = 9.01 g/mole fractionMass: 100.00 % Abundance 100.00 % |
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52 | |
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53 | Material: Aluminum density: 2.700 g/cm3 temperature: 273.15 K pressure: 1.00 atm RadLength: 8.893 cm |
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54 | ---> Element: Aluminum Z = 13.0 N = 27.0 A = 26.98 g/mole fractionMass: 100.00 % Abundance 100.00 % |
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55 | |
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56 | Material: Carbon density: 2.000 g/cm3 temperature: 273.15 K pressure: 1.00 atm RadLength: 21.348 cm |
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57 | ---> Element: Carbon Z = 6.0 N = 12.0 A = 12.01 g/mole fractionMass: 100.00 % Abundance 100.00 % |
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58 | |
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59 | Material: Silicon density: 2.330 g/cm3 temperature: 273.15 K pressure: 1.00 atm RadLength: 9.368 cm |
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60 | ---> Element: Silicon Z = 14.0 N = 28.1 A = 28.09 g/mole fractionMass: 100.00 % Abundance 100.00 % |
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61 | |
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62 | Material: liquidArgon density: 1.390 g/cm3 temperature: 273.15 K pressure: 1.00 atm RadLength: 14.065 cm |
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63 | ---> Element: liquidArgon Z = 18.0 N = 40.0 A = 39.95 g/mole fractionMass: 100.00 % Abundance 100.00 % |
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64 | |
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65 | Material: Iron density: 7.870 g/cm3 temperature: 273.15 K pressure: 1.00 atm RadLength: 1.759 cm |
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66 | ---> Element: Iron Z = 26.0 N = 55.9 A = 55.85 g/mole fractionMass: 100.00 % Abundance 100.00 % |
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67 | |
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68 | Material: Copper density: 8.960 g/cm3 temperature: 273.15 K pressure: 1.00 atm RadLength: 1.436 cm |
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69 | ---> Element: Copper Z = 29.0 N = 63.5 A = 63.55 g/mole fractionMass: 100.00 % Abundance 100.00 % |
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70 | |
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71 | Material: Gold density: 19.320 g/cm3 temperature: 273.15 K pressure: 1.00 atm RadLength: 3.344 mm |
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72 | ---> Element: Gold Z = 79.0 N = 197.0 A = 196.97 g/mole fractionMass: 100.00 % Abundance 100.00 % |
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73 | |
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74 | Material: Lead density: 11.350 g/cm3 temperature: 273.15 K pressure: 1.00 atm RadLength: 5.612 mm |
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75 | ---> Element: Lead Z = 82.0 N = 207.2 A = 207.19 g/mole fractionMass: 100.00 % Abundance 100.00 % |
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76 | |
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77 | Material: Water H_2O density: 1.000 g/cm3 temperature: 273.15 K pressure: 1.00 atm RadLength: 36.092 cm |
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78 | ---> Element: HydrogenH Z = 1.0 N = 1.0 A = 1.01 g/mole fractionMass: 11.21 % Abundance 66.67 % |
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79 | ---> Element: OxygenO Z = 8.0 N = 16.0 A = 16.00 g/mole fractionMass: 88.79 % Abundance 33.33 % |
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80 | |
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81 | Material: Methane CH_4 density: 0.667 mg/cm3 temperature: 273.15 K pressure: 1.00 atm RadLength: 696.375 m |
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82 | ---> Element: HydrogenH Z = 1.0 N = 1.0 A = 1.01 g/mole fractionMass: 25.19 % Abundance 80.00 % |
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83 | ---> Element: CarbonC Z = 6.0 N = 12.0 A = 12.00 g/mole fractionMass: 74.81 % Abundance 20.00 % |
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84 | |
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85 | Material: Graphite Graphite density: 2.265 g/cm3 temperature: 273.15 K pressure: 1.00 atm RadLength: 18.834 cm |
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86 | ---> Element: CarbonC Z = 6.0 N = 12.0 A = 12.00 g/mole fractionMass: 100.00 % Abundance 100.00 % |
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87 | |
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88 | Material: GaAs GaAs density: 5.318 g/cm3 temperature: 273.15 K pressure: 1.00 atm RadLength: 2.293 cm |
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89 | ---> Element: GalliumGa Z = 31.0 N = 69.7 A = 69.72 g/mole fractionMass: 48.20 % Abundance 50.00 % |
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90 | ---> Element: ArsenicumAs Z = 33.0 N = 74.9 A = 74.92 g/mole fractionMass: 51.80 % Abundance 50.00 % |
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91 | |
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92 | Material: Ethane C_2H_6 density: 424.100 mg/cm3 temperature: 273.15 K pressure: 1.00 atm RadLength: 1.076 m |
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93 | ---> Element: HydrogenH Z = 1.0 N = 1.0 A = 1.01 g/mole fractionMass: 20.16 % Abundance 75.00 % |
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94 | ---> Element: CarbonC Z = 6.0 N = 12.0 A = 12.00 g/mole fractionMass: 79.84 % Abundance 25.00 % |
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95 | |
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96 | Material: CsI CsI density: 4.530 g/cm3 temperature: 273.15 K pressure: 1.00 atm RadLength: 1.852 cm |
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97 | ---> Element: CesiumCs Z = 55.0 N = 132.9 A = 132.91 g/mole fractionMass: 51.15 % Abundance 50.00 % |
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98 | ---> Element: IodideI Z = 53.0 N = 126.9 A = 126.90 g/mole fractionMass: 48.85 % Abundance 50.00 % |
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99 | |
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100 | Material: Air density: 1.290 mg/cm3 temperature: 273.15 K pressure: 1.00 atm RadLength: 285.161 m |
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101 | ---> Element: NitrogenN Z = 7.0 N = 14.0 A = 14.01 g/mole fractionMass: 70.00 % Abundance 72.71 % |
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102 | ---> Element: OxygenO Z = 8.0 N = 16.0 A = 16.00 g/mole fractionMass: 30.00 % Abundance 27.29 % |
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103 | |
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104 | Material: Mylar density: 1.390 g/cm3 temperature: 273.15 K pressure: 1.00 atm RadLength: 28.868 cm |
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105 | ---> Element: CarbonC Z = 6.0 N = 12.0 A = 12.00 g/mole fractionMass: 55.00 % Abundance 30.30 % |
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106 | ---> Element: HydrogenH Z = 1.0 N = 1.0 A = 1.01 g/mole fractionMass: 8.33 % Abundance 54.55 % |
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107 | ---> Element: OxygenO Z = 8.0 N = 16.0 A = 16.00 g/mole fractionMass: 36.67 % Abundance 15.15 % |
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108 | |
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109 | Material: Vacuum density: 0.000 mg/cm3 temperature: 2.73 K pressure: 0.00 atm RadLength: 204727576.737 pc |
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110 | ---> Element: Vacuum Z = 1.0 N = 1.0 A = 1.01 g/mole fractionMass: 100.00 % Abundance 100.00 % |
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111 | |
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112 | |
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113 | The WORLD is made of of Vacuum. The transverse size (XY) of the world is 1e+02 mm |
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114 | The ABSORBER is made of 60 items of 0.001 mm of Mylar. The transverse size (XY) is 1e+02 mm |
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115 | physicsList->Construct() start. |
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116 | LowEnergy Electromagnetic PhysicsList is initilized |
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117 | LowE EM processes for GenericIon |
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118 | LowE GenericIon |
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119 | LowE EM processes for He3 |
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120 | LowE He3 |
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121 | LowE EM processes for IonAr40 |
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122 | LowE IonAr40 |
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123 | LowE EM processes for IonC12 |
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124 | LowE IonC12 |
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125 | LowE EM processes for IonFe56 |
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126 | LowE IonFe56 |
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127 | LowE EM processes for alpha |
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128 | LowE alpha |
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129 | LowE EM processes for anti_kaon0 |
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130 | LowE EM processes for anti_lambda |
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131 | LowE EM processes for anti_neutron |
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132 | LowE EM processes for anti_nu_e |
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133 | LowE EM processes for anti_nu_mu |
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134 | LowE EM processes for anti_omega- |
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135 | LowE EM processes for anti_proton |
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136 | LowE anti_proton |
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137 | LowE EM processes for anti_sigma+ |
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138 | LowE EM processes for anti_sigma- |
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139 | LowE EM processes for anti_sigma0 |
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140 | LowE EM processes for anti_xi- |
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141 | LowE EM processes for anti_xi0 |
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142 | LowE EM processes for chargedgeantino |
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143 | LowE EM processes for deuteron |
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144 | LowE deuteron |
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145 | LowE EM processes for e+ |
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146 | LowE e+ |
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147 | LowE EM processes for e- |
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148 | LowE e- |
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149 | >>>>>>>>> New G4LowEnergyIonisation 0x892c358 |
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150 | LowE EM processes for eta |
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151 | LowE EM processes for eta_prime |
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152 | LowE EM processes for gamma |
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153 | LowE gamma |
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154 | LowE EM processes for geantino |
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155 | LowE EM processes for kaon+ |
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156 | LowE kaon+ |
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157 | LowE EM processes for kaon- |
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158 | LowE kaon- |
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159 | LowE EM processes for kaon0 |
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160 | LowE EM processes for kaon0L |
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161 | LowE EM processes for kaon0S |
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162 | LowE EM processes for lambda |
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163 | LowE EM processes for mu+ |
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164 | LowE mu+ |
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165 | MuonMinusCaptureAtRest is created |
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166 | LowE EM processes for mu- |
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167 | LowE mu- |
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168 | MuonMinusCaptureAtRest is created |
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169 | LowE EM processes for neutron |
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170 | LowE EM processes for nu_e |
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171 | LowE EM processes for nu_mu |
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172 | LowE EM processes for omega- |
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173 | LowE EM processes for pi+ |
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174 | LowE pi+ |
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175 | LowE EM processes for pi- |
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176 | LowE pi- |
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177 | LowE EM processes for pi0 |
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178 | LowE EM processes for proton |
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179 | LowE proton |
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180 | LowE EM processes for sigma+ |
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181 | LowE sigma+ |
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182 | LowE EM processes for sigma- |
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183 | LowE sigma- |
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184 | LowE EM processes for sigma0 |
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185 | LowE EM processes for triton |
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186 | LowE triton |
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187 | LowE EM processes for xi- |
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188 | LowE EM processes for xi0 |
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189 | LowEnergy Hadronic PhysicsList is initilized |
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190 | physicsList->setCut() start. |
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191 | hTestPhysicsList: Set cuts for all particles |
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192 | |
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193 | msc: Tables of transport mean free paths. |
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194 | New model of MSC , computes the lateral |
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195 | displacement of the particle , too. |
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196 | PhysicsTables from 1e+02 eV to 1e+02 TeV in 100 bins. |
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197 | *** LEion using Tcut =0.00048 |
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198 | *** LEion using Tcut =0.00082 |
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199 | *** LEion using Tcut =0.00057 |
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200 | *** LEion using Tcut =0.00066 |
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201 | *** LEion using Tcut =0.00026 |
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202 | *** LEion using Tcut =0.0036 |
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203 | *** LEion using Tcut =0.0042 |
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204 | *** LEion using Tcut =0.0088 |
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205 | *** LEion using Tcut =0.0044 |
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206 | *** LEion using Tcut =0.0002 |
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207 | *** LEion using Tcut =1e-05 |
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208 | *** LEion using Tcut =0.00069 |
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209 | *** LEion using Tcut =0.0019 |
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210 | *** LEion using Tcut =5.5e-05 |
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211 | *** LEion using Tcut =0.0013 |
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212 | *** LEion using Tcut =1e-05 |
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213 | *** LEion using Tcut =0.00034 |
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214 | *** LEion using Tcut =1e-05 |
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215 | |
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216 | LowEnergyIoni: Low energy ionisation code with implementation of the continuous dE/dx part. |
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217 | At present it can be used for electrons in the energy range [250eV,100GeV] |
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218 | the process must work with G4LowEnergyBremsstrahlung |
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219 | *** LE Bremsstrahlung using Gamma Tcut = 1e-05 for material Beryllium |
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220 | *** LE Bremsstrahlung using Gamma Tcut = 1e-05 for material Aluminum |
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221 | *** LE Bremsstrahlung using Gamma Tcut = 1e-05 for material Carbon |
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222 | *** LE Bremsstrahlung using Gamma Tcut = 1e-05 for material Silicon |
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223 | *** LE Bremsstrahlung using Gamma Tcut = 1e-05 for material liquidArgon |
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224 | *** LE Bremsstrahlung using Gamma Tcut = 0.0019 for material Iron |
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225 | *** LE Bremsstrahlung using Gamma Tcut = 0.0022 for material Copper |
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226 | *** LE Bremsstrahlung using Gamma Tcut = 0.0084 for material Gold |
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227 | *** LE Bremsstrahlung using Gamma Tcut = 0.006 for material Lead |
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228 | *** LE Bremsstrahlung using Gamma Tcut = 1e-05 for material Water |
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229 | *** LE Bremsstrahlung using Gamma Tcut = 1e-05 for material Methane |
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230 | *** LE Bremsstrahlung using Gamma Tcut = 1e-05 for material Graphite |
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231 | *** LE Bremsstrahlung using Gamma Tcut = 0.0017 for material GaAs |
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232 | *** LE Bremsstrahlung using Gamma Tcut = 1e-05 for material Ethane |
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233 | *** LE Bremsstrahlung using Gamma Tcut = 0.0022 for material CsI |
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234 | *** LE Bremsstrahlung using Gamma Tcut = 1e-05 for material Air |
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235 | *** LE Bremsstrahlung using Gamma Tcut = 1e-05 for material Mylar |
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236 | *** LE Bremsstrahlung using Gamma Tcut = 1e-05 for material Vacuum |
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237 | |
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238 | LowEnBrem: Total cross sections from EEDL database,Gamma energy sampled from a parametrised formula.Implementation of the continuous dE/dx part. |
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239 | At present it can be used for electrons in the energy range [250eV,100GeV] |
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240 | the process must work with G4LowEnergyIonisation |
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241 | |
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242 | annihil: Total cross section from Heilter formula (annihilation into 2 photons). |
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243 | gamma energies sampled according Heitler |
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244 | PhysicsTables from 10 keV to 10 TeV in 100 bins. |
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245 | |
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246 | msc: Tables of transport mean free paths. |
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247 | New model of MSC , computes the lateral |
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248 | displacement of the particle , too. |
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249 | PhysicsTables from 1e+02 eV to 1e+02 TeV in 100 bins. |
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250 | |
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251 | MuIoni: knock-on electron cross sections . |
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252 | Good description above the mean excitation energy. |
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253 | delta ray energy sampled from differential Xsection. |
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254 | PhysicsTables from 1 keV to 1e+03 PeV in 150 bins. |
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255 | |
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256 | MuBrems: theoretical cross section |
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257 | Good description up to 1000 PeV. |
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258 | PhysicsTables from 1 keV to 1e+03 PeV in 150 bins. |
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259 | |
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260 | MuPairProd: theoretical cross sections |
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261 | Good description up to 1000 PeV. |
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262 | PhysicsTables from 1 keV to 1e+03 PeV in 150 bins. |
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263 | |
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264 | msc: Tables of transport mean free paths. |
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265 | New model of MSC , computes the lateral |
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266 | displacement of the particle , too. |
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267 | PhysicsTables from 1e+02 eV to 1e+02 TeV in 100 bins. |
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268 | |
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269 | hLowEIoni: Knock-on electron cross sections . |
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270 | Good description above the mean excitation energy. |
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271 | Delta ray energy sampled from differential Xsection. |
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272 | PhysicsTables from 10 eV to 1e+02 TeV in 200 bins. |
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273 | Electronic stopping power model is ICRU_R49p |
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274 | from 1 keV to 2 MeV . |
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275 | |
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276 | Parametrisation model for antiprotons is ICRU_R49p |
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277 | from 50 keV to 2 MeV . |
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278 | Parametrization of the Barkas effect is switched on. |
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279 | Nuclear stopping power model is ICRU_R49 |
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280 | material min.delta energy(keV) |
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281 | |
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282 | Methane 0.043 |
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283 | Air 0.086 |
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284 | Vacuum 0.021 |
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285 | ============= The cut Energy ============================== |
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286 | gamma e- |
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287 | Cut in range 10 mum 1 mum |
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288 | Cut in energy |
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289 | Beryllium 10 eV 484 eV |
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290 | Aluminum 10 eV 820 eV |
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291 | Carbon 10 eV 570 eV |
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292 | Silicon 10 eV 656 eV |
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293 | liquidArgon 10 eV 259 eV |
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294 | Iron 1.9 keV 3.56 keV |
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295 | Copper 2.16 keV 4.15 keV |
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296 | Gold 8.35 keV 8.77 keV |
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297 | Lead 5.98 keV 4.44 keV |
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298 | Water 10 eV 202 eV |
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299 | Methane 10 eV 10 eV |
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300 | Graphite 10 eV 691 eV |
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301 | GaAs 1.72 keV 1.93 keV |
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302 | Ethane 10 eV 54.8 eV |
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303 | CsI 2.22 keV 1.33 keV |
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304 | Air 10 eV 10 eV |
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305 | Mylar 10 eV 339 eV |
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306 | Vacuum 10 eV 10 eV |
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307 | =================================================== |
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308 | Start event loop for 1000 events |
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309 | hTestHisto: Histograms will be saved to the file <mylar.paw> |
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310 | Start closing geometry. |
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311 | Start Run processing. |
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312 | Run terminated. |
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313 | Run Summary |
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314 | Number of events processed : 1000 |
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315 | User=1.4e+02s Real=1.4e+02s Sys=0.99s |
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316 | hTestHisto: End of run actions are started |
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317 | ======================================================== |
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318 | Range(mm)= 0.05319; Stragling(mm)= 0.0008314 +- 2.6e-05 |
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319 | ======================================================== |
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320 | Histograms and Ntuples are saved |
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321 | runManager will be deleted |
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322 | G4 kernel has come to Quit state. |
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323 | Deletion of G4 kernel class start. |
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324 | UserDetectorConstruction deleted. |
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325 | UserPhysicsList deleted. |
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326 | UserPrimaryGenerator deleted. |
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327 | G4SDManager deleted. |
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328 | EventManager deleted. |
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329 | UImanager deleted. |
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330 | StateManager deleted. |
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331 | RunManager is deleting. |
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332 | runManager is deleted |
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