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G4hICRU49He Class Reference

#include <G4hICRU49He.hh>

Inheritance diagram for G4hICRU49He:
Collaboration diagram for G4hICRU49He:

Public Member Functions

 G4hICRU49He ()
 
 ~G4hICRU49He ()
 
G4bool HasMaterial (const G4Material *material)
 
G4double StoppingPower (const G4Material *material, G4double kineticEnergy)
 
G4double ElectronicStoppingPower (G4double z, G4double kineticEnergy) const
 
- Public Member Functions inherited from G4VhElectronicStoppingPower
 G4VhElectronicStoppingPower ()
 
virtual ~G4VhElectronicStoppingPower ()
 

Additional Inherited Members

- Protected Member Functions inherited from G4VhElectronicStoppingPower
G4double HeEffChargeSquare (const G4double z, const G4double kineticEnergyHe) const
 
G4double GetHeMassAMU () const
 

Detailed Description

Definition at line 58 of file G4hICRU49He.hh.

Constructor & Destructor Documentation

G4hICRU49He::G4hICRU49He ( )

Definition at line 67 of file G4hICRU49He.cc.

68  rateMass(4.0026/1.007276),
69  iMolecula(0)
70 {;}
G4hICRU49He::~G4hICRU49He ( )

Definition at line 74 of file G4hICRU49He.cc.

75 {;}

Member Function Documentation

G4double G4hICRU49He::ElectronicStoppingPower ( G4double  z,
G4double  kineticEnergy 
) const
virtual

Implements G4VhElectronicStoppingPower.

Definition at line 203 of file G4hICRU49He.cc.

205 {
206  G4double ionloss ;
207  G4int i = G4int(z)-1 ; // index of atom
208  if(i < 0) i = 0 ;
209  if(i > 91) i = 91 ;
210 
211  // The data and the fit from:
212  // ICRU Report 49, 1993. Ziegler's type of parametrisations
213  // Reduced kinetic energy
214 
215  // He energy in internal units of parametrisation formula (MeV)
216  G4double T = kineticEnergy*rateMass/MeV ;
217 
218  static const G4double a[92][5] = {
219  {0.35485, 0.6456, 6.01525, 20.8933, 4.3515
220  },{ 0.58, 0.59, 6.3, 130.0, 44.07
221  },{ 1.42, 0.49, 12.25, 32.0, 9.161
222  },{ 2.1895, 0.47183,7.2362, 134.30, 197.96
223  },{ 3.691, 0.4128, 18.48, 50.72, 9.0
224  },{ 3.83523, 0.42993,12.6125, 227.41, 188.97
225  },{ 1.9259, 0.5550, 27.15125, 26.0665, 6.2768
226  },{ 2.81015, 0.4759, 50.0253, 10.556, 1.0382
227  },{ 1.533, 0.531, 40.44, 18.41, 2.718
228  },{ 2.303, 0.4861, 37.01, 37.96, 5.092
229  },{ 9.894, 0.3081, 23.65, 0.384, 92.93
230  },{ 4.3, 0.47, 34.3, 3.3, 12.74
231  },{ 2.5, 0.625, 45.7, 0.1, 4.359
232  },{ 2.1, 0.65, 49.34, 1.788, 4.133
233  },{ 1.729, 0.6562, 53.41, 2.405, 3.845
234  },{ 1.402, 0.6791, 58.98, 3.528, 3.211
235  },{ 1.117, 0.7044, 69.69, 3.705, 2.156
236  },{ 2.291, 0.6284, 73.88, 4.478, 2.066
237  },{ 8.554, 0.3817, 83.61, 11.84, 1.875
238  },{ 6.297, 0.4622, 65.39, 10.14, 5.036
239  },{ 5.307, 0.4918, 61.74, 12.4, 6.665
240  },{ 4.71, 0.5087, 65.28, 8.806, 5.948
241  },{ 6.151, 0.4524, 83.0, 18.31, 2.71
242  },{ 6.57, 0.4322, 84.76, 15.53, 2.779
243  },{ 5.738, 0.4492, 84.6, 14.18, 3.101
244  },{ 5.013, 0.4707, 85.8, 16.55, 3.211
245  },{ 4.32, 0.4947, 76.14, 10.85, 5.441
246  },{ 4.652, 0.4571, 80.73, 22.0, 4.952
247  },{ 3.114, 0.5236, 76.67, 7.62, 6.385
248  },{ 3.114, 0.5236, 76.67, 7.62, 7.502
249  },{ 3.114, 0.5236, 76.67, 7.62, 8.514
250  },{ 5.746, 0.4662, 79.24, 1.185, 7.993
251  },{ 2.792, 0.6346, 106.1, 0.2986, 2.331
252  },{ 4.667, 0.5095, 124.3, 2.102, 1.667
253  },{ 2.44, 0.6346, 105.0, 0.83, 2.851
254  },{ 1.413, 0.7377, 147.9, 1.466, 1.016
255  },{ 11.72, 0.3826, 102.8, 9.231, 4.371
256  },{ 7.126, 0.4804, 119.3, 5.784, 2.454
257  },{ 11.61, 0.3955, 146.7, 7.031, 1.423
258  },{ 10.99, 0.41, 163.9, 7.1, 1.052
259  },{ 9.241, 0.4275, 163.1, 7.954, 1.102
260  },{ 9.276, 0.418, 157.1, 8.038, 1.29
261  },{ 3.999, 0.6152, 97.6, 1.297, 5.792
262  },{ 4.306, 0.5658, 97.99, 5.514, 5.754
263  },{ 3.615, 0.6197, 86.26, 0.333, 8.689
264  },{ 5.8, 0.49, 147.2, 6.903, 1.289
265  },{ 5.6, 0.49, 130.0, 10.0, 2.844
266  },{ 3.55, 0.6068, 124.7, 1.112, 3.119
267  },{ 3.6, 0.62, 105.8, 0.1692, 6.026
268  },{ 5.4, 0.53, 103.1, 3.931, 7.767
269  },{ 3.97, 0.6459, 131.8, 0.2233, 2.723
270  },{ 3.65, 0.64, 126.8, 0.6834, 3.411
271  },{ 3.118, 0.6519, 164.9, 1.208, 1.51
272  },{ 3.949, 0.6209, 200.5, 1.878, 0.9126
273  },{ 14.4, 0.3923, 152.5, 8.354, 2.597
274  },{ 10.99, 0.4599, 138.4, 4.811, 3.726
275  },{ 16.6, 0.3773, 224.1, 6.28, 0.9121
276  },{ 10.54, 0.4533, 159.3, 4.832, 2.529
277  },{ 10.33, 0.4502, 162.0, 5.132, 2.444
278  },{ 10.15, 0.4471, 165.6, 5.378, 2.328
279  },{ 9.976, 0.4439, 168.0, 5.721, 2.258
280  },{ 9.804, 0.4408, 176.2, 5.675, 1.997
281  },{ 14.22, 0.363, 228.4, 7.024, 1.016
282  },{ 9.952, 0.4318, 233.5, 5.065, 0.9244
283  },{ 9.272, 0.4345, 210.0, 4.911, 1.258
284  },{ 10.13, 0.4146, 225.7, 5.525, 1.055
285  },{ 8.949, 0.4304, 213.3, 5.071, 1.221
286  },{ 11.94, 0.3783, 247.2, 6.655, 0.849
287  },{ 8.472, 0.4405, 195.5, 4.051, 1.604
288  },{ 8.301, 0.4399, 203.7, 3.667, 1.459
289  },{ 6.567, 0.4858, 193.0, 2.65, 1.66
290  },{ 5.951, 0.5016, 196.1, 2.662, 1.589
291  },{ 7.495, 0.4523, 251.4, 3.433, 0.8619
292  },{ 6.335, 0.4825, 255.1, 2.834, 0.8228
293  },{ 4.314, 0.5558, 214.8, 2.354, 1.263
294  },{ 4.02, 0.5681, 219.9, 2.402, 1.191
295  },{ 3.836, 0.5765, 210.2, 2.742, 1.305
296  },{ 4.68, 0.5247, 244.7, 2.749, 0.8962
297  },{ 3.223, 0.5883, 232.7, 2.954, 1.05
298  },{ 2.892, 0.6204, 208.6, 2.415, 1.416
299  },{ 4.728, 0.5522, 217.0, 3.091, 1.386
300  },{ 6.18, 0.52, 170.0, 4.0, 3.224
301  },{ 9.0, 0.47, 198.0, 3.8, 2.032
302  },{ 2.324, 0.6997, 216.0, 1.599, 1.399
303  },{ 1.961, 0.7286, 223.0, 1.621, 1.296
304  },{ 1.75, 0.7427, 350.1, 0.9789, 0.5507
305  },{ 10.31, 0.4613, 261.2, 4.738, 0.9899
306  },{ 7.962, 0.519, 235.7, 4.347, 1.313
307  },{ 6.227, 0.5645, 231.9, 3.961, 1.379
308  },{ 5.246, 0.5947, 228.6, 4.027, 1.432
309  },{ 5.408, 0.5811, 235.7, 3.961, 1.358
310  },{ 5.218, 0.5828, 245.0, 3.838, 1.25}
311  };
312 
313  // Free electron gas model
314  if ( T < 0.001 ) {
315  G4double slow = a[i][0] ;
316  G4double shigh = std::log( 1.0 + a[i][3]*1000.0 + a[i][4]*0.001 )
317  * a[i][2]*1000.0 ;
318  ionloss = slow*shigh / (slow + shigh) ;
319  ionloss *= std::sqrt(T*1000.0) ;
320 
321  // Main parametrisation
322  } else {
323  G4double slow = a[i][0] * std::pow((T*1000.0), a[i][1]) ;
324  G4double shigh = std::log( 1.0 + a[i][3]/T + a[i][4]*T ) * a[i][2]/T ;
325  ionloss = slow*shigh / (slow + shigh) ;
326 
327  }
328  if ( ionloss < 0.0) ionloss = 0.0 ;
329 
330  // He effective charge
331  ionloss /= HeEffChargeSquare(z, kineticEnergy*rateMass) ;
332 
333  return ionloss;
334 }
std::vector< ExP01TrackerHit * > a
Definition: ExP01Classes.hh:33
int G4int
Definition: G4Types.hh:78
G4double HeEffChargeSquare(const G4double z, const G4double kineticEnergyHe) const
tuple z
Definition: test.py:28
static constexpr double MeV
Definition: G4SIunits.hh:214
double G4double
Definition: G4Types.hh:76

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G4bool G4hICRU49He::HasMaterial ( const G4Material material)
virtual

Implements G4VhElectronicStoppingPower.

Definition at line 79 of file G4hICRU49He.cc.

80 {
81  G4String chFormula = material->GetChemicalFormula() ;
82  G4String myFormula = G4String(" ");
83 
84  if (myFormula == chFormula ) {
85  if(1 == (material->GetNumberOfElements())) {return true;}
86  return false ;
87  }
88 
89  // ICRU Report N49, 1993. Power's model for He.
90  const size_t numberOfMolecula = 30 ;
91  static const G4String name[numberOfMolecula] = {
92  "H_2", "Be-Solid", "C-Solid", "Graphite", "N_2",
93  "O_2", "Al-Solid", "Si-Solid", "Ar-Solid", "Cu-Solid",
94  "Ge", "W-Solid", "Au-Solid", "Pb-Solid", "C_2H_2",
95  "CO_2", "Cellulose-Nitrat", "C_2H_4", "LiF",
96  "CH_4", "Nylon", "Polycarbonate", "(CH_2)_N-Polyetilene", "PMMA",
97  "(C_8H_8)_N", "SiO_2", "CsI", "H_2O", "H_2O-Gas"};
98 
99  // Special treatment for water in gas state
100 
101  myFormula = G4String("H_2O") ;
102  const G4State theState = material->GetState() ;
103  if( theState == kStateGas && myFormula == chFormula) {
104  chFormula = G4String("H_2O-Gas");
105  }
106 
107  // Search for the material in the table
108  for (size_t i=0; i<numberOfMolecula; i++) {
109  if (chFormula == name[i]) {
110  SetMoleculaNumber(i) ;
111  return true ;
112  }
113  }
114  return false ;
115 }
const XML_Char * name
Definition: expat.h:151
G4State
Definition: G4Material.hh:114
static const G4int numberOfMolecula
const G4String & GetChemicalFormula() const
Definition: G4Material.hh:179
size_t GetNumberOfElements() const
Definition: G4Material.hh:186
G4State GetState() const
Definition: G4Material.hh:181

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G4double G4hICRU49He::StoppingPower ( const G4Material material,
G4double  kineticEnergy 
)
virtual

Implements G4VhElectronicStoppingPower.

Definition at line 119 of file G4hICRU49He.cc.

121 {
122  G4double ionloss = 0.0 ;
123 
124  // pure material (normally not the case for this function)
125  if(1 == (material->GetNumberOfElements())) {
126  G4double z = material->GetZ() ;
127  ionloss = ElectronicStoppingPower( z, kineticEnergy ) ;
128 
129  // The data and the fit from:
130  // ICRU Report N49, 1993. Power's model for He.
131  } else if ( iMolecula < 30 ) {
132 
133  // Reduced kinetic energy
134  // in internal units of parametrisation formula (MeV)
135  G4double T = kineticEnergy*rateMass/MeV ;
136 
137  static const G4double c[30][7] = {
138  {8.0080, 3.6287, 23.0700, 14.9900, 0.8507, 0.60, 2.0
139  },{ 13.3100, 3.7432, 39.4130, 12.1990, 1.0950, 0.38, 1.4
140  },{ 22.7240, 3.6040, 47.1810, 17.5490, 0.9040, 0.40, 1.4
141  },{ 24.4040, 2.4032, 48.9440, 27.9730, 1.2933, 0.40, 1.6
142  },{ 58.4719, 1.5115, 77.6421, 102.490, 1.5811, 0.50, 2.0
143  },{ 60.5408, 1.6297, 91.7601, 94.1260, 1.3662, 0.50, 2.0
144  },{ 48.4480, 6.4323, 59.2890, 18.3810, 0.4937, 0.48, 1.6
145  },{ 59.0346, 5.1305, 47.0866, 30.0857, 0.3500, 0.60, 2.0
146  },{ 71.8691, 2.8250, 51.1658, 57.1235, 0.4477, 0.60, 2.0
147  },{ 78.3520, 4.0961, 136.731, 28.4470, 1.0621, 0.52, 1.2
148  },{ 120.553, 1.5374, 49.8740, 82.2980, 0.8733, 0.45, 1.6
149  },{ 249.896, 0.6996, -37.274, 248.592, 1.1052, 0.50, 1.5
150  },{ 246.698, 0.6219, -58.391, 292.921, 0.8186, 0.56, 1.8
151  },{ 248.563, 0.6235, -36.8968, 306.960, 1.3214, 0.50, 2.0
152  },{ 25.5860, 1.7125, 154.723, 118.620, 2.2580, 0.50, 2.0
153  },{ 138.294, 25.6413, 231.873, 17.3780, 0.3218, 0.58, 1.3
154  },{ 83.2091, 1.1294, 135.7457, 190.865, 2.3461, 0.50, 2.0
155  },{ 263.542, 1.4754, 1541.446, 781.898, 1.9209, 0.40, 2.0
156  },{ 59.5545, 1.5354, 132.1523, 153.3537, 2.0262, 0.50, 2.0
157  },{ 31.7380, 19.820, 125.2100, 6.8910, 0.7242, 0.50, 1.1
158  },{ 31.7549, 1.5682, 97.4777, 106.0774, 2.3204, 0.50, 2.0
159  },{ 230.465, 4.8967, 1845.320, 358.641, 1.0774, 0.46, 1.2
160  },{ 423.444, 5.3761, 1189.114, 319.030, 0.7652, 0.48, 1.5
161  },{ 86.3410, 3.3322, 91.0433, 73.1091, 0.4650, 0.50, 2.0
162  },{ 146.105, 9.4344, 515.1500, 82.8860, 0.6239, 0.55, 1.5
163  },{ 238.050, 5.6901, 372.3575, 146.1835, 0.3992, 0.50, 2.0
164  },{ 124.2338, 2.6730, 133.8175, 99.4109, 0.7776, 0.50, 2.0
165  },{ 221.723, 1.5415, 87.7315, 192.5266, 1.0742, 0.50, 2.0
166  },{ 26.7537, 1.3717, 90.8007, 77.1587, 2.3264, 0.50, 2.0
167  },{ 37.6121, 1.8052, 73.0250, 66.2070, 1.4038, 0.50, 2.0} };
168 
169  G4double a1,a2 ;
170 
171  // Free electron gas model
172  if ( T < 0.001 ) {
173  G4double T0 = 0.001 ;
174  a1 = 1.0 - G4Exp(-c[iMolecula][1]*std::pow(T0,-2.0+c[iMolecula][5])) ;
175  a2 = (c[iMolecula][0]*std::log(T0)/T0 + c[iMolecula][2]/T0) *
176  G4Exp(-c[iMolecula][4]*std::pow(T0,-c[iMolecula][6])) +
177  c[iMolecula][3]/(T0*T0) ;
178 
179  ionloss *= std::sqrt(T/T0) ;
180 
181  // Main parametrisation
182  } else {
183  a1 = 1.0 - G4Exp(-c[iMolecula][1]*std::pow(T,-2.0+c[iMolecula][5])) ;
184  a2 = (c[iMolecula][0]*std::log(T)/T + c[iMolecula][2]/T) *
185  G4Exp(-c[iMolecula][4]*std::pow(T,-c[iMolecula][6])) +
186  c[iMolecula][3]/(T*T) ;
187  }
188 
189  // He effective charge
190  G4double z = (material->GetTotNbOfElectPerVolume()) /
191  (material->GetTotNbOfAtomsPerVolume()) ;
192 
193  ionloss = a1*a2 / HeEffChargeSquare(z, kineticEnergy*rateMass) ;
194 
195  if ( ionloss < 0.0) ionloss = 0.0 ;
196  }
197 
198  return ionloss ;
199 }
G4double GetZ() const
Definition: G4Material.cc:623
G4double GetTotNbOfElectPerVolume() const
Definition: G4Material.hh:212
G4double HeEffChargeSquare(const G4double z, const G4double kineticEnergyHe) const
G4double G4Exp(G4double initial_x)
Exponential Function double precision.
Definition: G4Exp.hh:183
G4double GetTotNbOfAtomsPerVolume() const
Definition: G4Material.hh:209
tuple z
Definition: test.py:28
static const G4double T0[78]
static constexpr double MeV
Definition: G4SIunits.hh:214
size_t GetNumberOfElements() const
Definition: G4Material.hh:186
double G4double
Definition: G4Types.hh:76
tuple c
Definition: test.py:13
G4double ElectronicStoppingPower(G4double z, G4double kineticEnergy) const
Definition: G4hICRU49He.cc:203

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The documentation for this class was generated from the following files: