Geant4_10
G4Bessel.cc
Go to the documentation of this file.
1 //
2 // ********************************************************************
3 // * License and Disclaimer *
4 // * *
5 // * The Geant4 software is copyright of the Copyright Holders of *
6 // * the Geant4 Collaboration. It is provided under the terms and *
7 // * conditions of the Geant4 Software License, included in the file *
8 // * LICENSE and available at http://cern.ch/geant4/license . These *
9 // * include a list of copyright holders. *
10 // * *
11 // * Neither the authors of this software system, nor their employing *
12 // * institutes,nor the agencies providing financial support for this *
13 // * work make any representation or warranty, express or implied, *
14 // * regarding this software system or assume any liability for its *
15 // * use. Please see the license in the file LICENSE and URL above *
16 // * for the full disclaimer and the limitation of liability. *
17 // * *
18 // * This code implementation is the result of the scientific and *
19 // * technical work of the GEANT4 collaboration. *
20 // * *
21 // * Parts of this code which have been developed by QinetiQ Ltd *
22 // * under contract to the European Space Agency (ESA) are the *
23 // * intellectual property of ESA. Rights to use, copy, modify and *
24 // * redistribute this software for general public use are granted *
25 // * in compliance with any licensing, distribution and development *
26 // * policy adopted by the Geant4 Collaboration. This code has been *
27 // * written by QinetiQ Ltd for the European Space Agency, under ESA *
28 // * contract 17191/03/NL/LvH (Aurora Programme). *
29 // * *
30 // * By using, copying, modifying or distributing the software (or *
31 // * any work based on the software) you agree to acknowledge its *
32 // * use in resulting scientific publications, and indicate your *
33 // * acceptance of all terms of the Geant4 Software license. *
34 // ********************************************************************
35 //
36 // %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
37 //
38 // MODULE: G4Bessel.cc
39 //
40 // Version: B.1
41 // Date: 15/04/04
42 // Author: P R Truscott
43 // Organisation: QinetiQ Ltd, UK
44 // Customer: ESA/ESTEC, NOORDWIJK
45 // Contract: 17191/03/NL/LvH
46 //
47 // %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
48 //
49 // CHANGE HISTORY
50 // --------------
51 //
52 // 18 Noevmber 2003, P R Truscott, QinetiQ Ltd, UK
53 // Created.
54 //
55 // 15 March 2004, P R Truscott, QinetiQ Ltd, UK
56 // Beta release
57 //
58 // %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
60 //
61 #include "G4Bessel.hh"
62 #include "G4PhysicalConstants.hh"
64 //
66 {;}
68 //
70 {;}
72 //
74 {
75  const G4double P1 = 1.0,
76  P2 = 3.5156229,
77  P3 = 3.0899424,
78  P4 = 1.2067492,
79  P5 = 0.2659732,
80  P6 = 0.0360768,
81  P7 = 0.0045813;
82  const G4double Q1 = 0.39894228,
83  Q2 = 0.01328592,
84  Q3 = 0.00225319,
85  Q4 =-0.00157565,
86  Q5 = 0.00916281,
87  Q6 =-0.02057706,
88  Q7 = 0.02635537,
89  Q8 =-0.01647633,
90  Q9 = 0.00392377;
91 
92  G4double I = 0.0;
93  if (std::fabs(x) < 3.75)
94  {
95  G4double y = std::pow(x/3.75, 2.0);
96  I = P1+y*(P2+y*(P3+y*(P4+y*(P5+y*(P6+y*P7)))));
97  }
98  else
99  {
100  G4double ax = std::fabs(x);
101  G4double y = 3.75/ax;
102  I = std::exp(ax) / std::sqrt(ax) *
103  (Q1+y*(Q2+y*(Q3+y*(Q4+y*(Q5+y*(Q6+y*(Q7+y*(Q8+y*Q9))))))));
104  }
105  return I;
106 }
108 //
110 {
111  const G4double P1 =-0.57721566,
112  P2 = 0.42278420,
113  P3 = 0.23069756,
114  P4 = 0.03488590,
115  P5 = 0.00262698,
116  P6 = 0.00010750,
117  P7 = 0.00000740;
118  const G4double Q1 = 1.25331414,
119  Q2 =-0.07832358,
120  Q3 = 0.02189568,
121  Q4 =-0.01062446,
122  Q5 = 0.00587872,
123  Q6 =-0.00251540,
124  Q7 = 0.00053208;
125 
126  G4double K = 0.0;
127  if (x <= 2.0)
128  {
129  G4double y = x * x / 4.0;
130  K = (-std::log(x/2.0)) * I0(x) +
131  P1+y*(P2+y*(P3+y*(P4+y*(P5+y*(P6+y*P7)))));
132  }
133  else
134  {
135  G4double y = 2.0 / x;
136  K = std::exp(-x) / std::sqrt(x) *
137  (Q1+y*(Q2+y*(Q3+y*(Q4+y*(Q5+y*(Q6+y*Q7))))));
138  }
139  return K;
140 }
142 //
144 {
145  const G4double P1 = 0.5,
146  P2 = 0.87890594,
147  P3 = 0.51498869,
148  P4 = 0.15084934,
149  P5 = 0.02658733,
150  P6 = 0.00301532,
151  P7 = 0.00032411;
152  const G4double Q1 = 0.39894228,
153  Q2 =-0.03988024,
154  Q3 =-0.00362018,
155  Q4 = 0.00163801,
156  Q5 =-0.01031555,
157  Q6 = 0.02282967,
158  Q7 =-0.02895312,
159  Q8 = 0.01787654,
160  Q9 =-0.00420059;
161 
162  G4double I = 0.0;
163  if (std::fabs(x) < 3.75)
164  {
165  G4double ax = std::fabs(x);
166  G4double y = std::pow(x/3.75, 2.0);
167  I = ax*(P1+y*(P2+y*(P3+y*(P4+y*(P5+y*(P6+y*P7))))));
168  }
169  else
170  {
171  G4double ax = std::fabs(x);
172  G4double y = 3.75/ax;
173  I = std::exp(ax) / std::sqrt(ax) *
174  (Q1+y*(Q2+y*(Q3+y*(Q4+y*(Q5+y*(Q6+y*(Q7+y*(Q8+y*Q9))))))));
175  }
176  if (x < 0.0) I = -I;
177  return I;
178 }
180 //
182 {
183  const G4double P1 = 1.0,
184  P2 = 0.15443144,
185  P3 =-0.67278579,
186  P4 =-0.18156897,
187  P5 =-0.01919402,
188  P6 =-0.00110404,
189  P7 =-0.00004686;
190  const G4double Q1 = 1.25331414,
191  Q2 = 0.23498619,
192  Q3 =-0.03655620,
193  Q4 = 0.01504268,
194  Q5 =-0.00780353,
195  Q6 = 0.00325614,
196  Q7 =-0.00068245;
197 
198  G4double K = 0.0;
199  if (x <= 2.0)
200  {
201  G4double y = x * x / 4.0;
202  K = std::log(x/2.0)*I1(x) + 1.0/x *
203  (P1+y*(P2+y*(P3+y*(P4+y*(P5+y*(P6+y*P7))))));
204  }
205  else
206  {
207  G4double y = 2.0 / x;
208  K = std::exp(-x) / std::sqrt(x) *
209  (Q1+y*(Q2+y*(Q3+y*(Q4+y*(Q5+y*(Q6+y*Q7))))));
210  }
211  return K;
212 }
214 //
216 {
217  const G4double A0 = 0.1250000000000E+00,
218  A1 = 7.0312500000000E-02,
219  A2 = 7.3242187500000E-02,
220  A3 = 1.1215209960938E-01,
221  A4 = 2.2710800170898E-01,
222  A5 = 5.7250142097473E-01,
223  A6 = 1.7277275025845E+00,
224  A7 = 6.0740420012735E+00,
225  A8 = 2.4380529699556E+01,
226  A9 = 1.1001714026925E+02,
227  A10 = 5.5133589612202E+02,
228  A11 = 3.0380905109224E+03;
229 
230  G4double I = 0.0;
231  if (x == 0.0)
232  {
233  I = 1.0;
234  }
235  else if (x < 18.0)
236  {
237  I = 1.0;
238  G4double y = x * x;
239  G4double q = 1.0;
240  for (G4int i=1; i<101; i++)
241  {
242  q *= 0.25 * y / i / i;
243  I += q;
244  if (std::abs(q/I) < 1.0E-15) break;
245  }
246  }
247  else
248  {
249  G4double y = 1.0 / x;
250  I = std::exp(x) / std::sqrt(twopi*x) *
251  (1.0 + y*(A0+y*(A1+y*(A2+y*(A3+y*(A4+y*(A5+y*(A6+y*(A7+y*(A8+y*(A9+y*(A10+y*A11))))))))))));
252  }
253 
254  return I;
255 }
257 //
259 {
260  const G4double A0 = -0.3750000000000E+00,
261  A1 = -1.1718750000000E-01,
262  A2 = -1.0253906250000E-01,
263  A3 = -1.4419555664063E-01,
264  A4 = -2.775764465332E-01,
265  A5 = -6.7659258842468E-01,
266  A6 = -1.9935317337513E+00,
267  A7 = -6.8839142681099E+00,
268  A8 = -2.7248827311269E+01,
269  A9 = -1.2159789187654E+02,
270  A10 = -6.0384407670507E+02,
271  A11 = -3.3022722944809E+03;
272 
273  G4double I = 0.0;
274  if (x == 0.0)
275  {
276  I = 0.0;
277  }
278  else if (x < 18.0)
279  {
280  I = 1.0;
281  G4double y = x * x;
282  G4double q = 1.0;
283  for (G4int i=1; i<101; i++)
284  {
285  q *= 0.25 * y / i / (i+1.0);
286  I += q;
287  if (std::abs(q/I) < 1.0E-15) break;
288  }
289  I *= 0.5 * x;
290 
291  }
292  else
293  {
294  G4double y = 1.0 / x;
295  I = std::exp(x) / std::sqrt(twopi*x) *
296  (1.0 + y*(A0+y*(A1+y*(A2+y*(A3+y*(A4+y*(A5+y*(A6+y*(A7+y*(A8+y*(A9+y*(A10+y*A11))))))))))));
297  }
298 
299  return I;
300 }
302 //
304 {
305  const G4double A0 = 0.1250000000000E+00,
306  A1 = 0.2109375000000E+00,
307  A2 = 1.0986328125000E+00,
308  A3 = 1.1775970458984E+01,
309  A4 = 2.1461706161499E+02,
310  A5 = 5.9511522710323E+03,
311  A6 = 2.3347645606175E+05,
312  A7 = 1.2312234987631E+07;
313 
314  G4double K = 0.0;
315  if (x == 0.0)
316  {
317  K = 1.0E+307;
318  }
319  else if (x < 9.0)
320  {
321  G4double y = x * x;
322  G4double C = -std::log(x/2.0) - 0.5772156649015329;
323  G4double q = 1.0;
324  G4double t = 0.0;
325  for (G4int i=1; i<51; i++)
326  {
327  q *= 0.25 * y / i / i;
328  t += 1.0 / i ;
329  K += q * (t+C);
330  }
331  K += C;
332  }
333  else
334  {
335  G4double y = 1.0 / x / x;
336  K = 0.5 / x / pI0(x) *
337  (1.0 + y*(A0+y*(A1+y*(A2+y*(A3+y*(A4+y*(A5+y*(A6+y*A7))))))));
338  }
339 
340  return K;
341 }
343 //
345 {
346  G4double K = 0.0;
347  if (x == 0.0)
348  K = 1.0E+307;
349  else
350  K = (1.0/x - pI1(x)*pK0(x)) / pI0(x);
351  return K;
352 }
354 //
G4double K1(G4double)
Definition: G4Bessel.cc:181
G4double pI0(G4double)
Definition: G4Bessel.cc:215
~G4Bessel()
Definition: G4Bessel.cc:69
#define A10
G4double I0(G4double)
Definition: G4Bessel.cc:73
G4double pK1(G4double)
Definition: G4Bessel.cc:344
G4double pI1(G4double)
Definition: G4Bessel.cc:258
tuple x
Definition: test.py:50
int G4int
Definition: G4Types.hh:78
Double_t y
Definition: plot.C:279
G4double I1(G4double)
Definition: G4Bessel.cc:143
G4double K0(G4double)
Definition: G4Bessel.cc:109
G4double pK0(G4double)
Definition: G4Bessel.cc:303
#define A11
double G4double
Definition: G4Types.hh:76
G4Bessel()
Definition: G4Bessel.cc:65