Geant4  10.02.p03
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XrayFluoNistMaterials Class Reference

#include <XrayFluoNistMaterials.hh>

Collaboration diagram for XrayFluoNistMaterials:

Public Member Functions

 ~XrayFluoNistMaterials ()
 
G4MaterialGetMaterial (G4String)
 

Static Public Member Functions

static XrayFluoNistMaterialsGetInstance ()
 

Private Member Functions

 XrayFluoNistMaterials ()
 
void CreateMaterials ()
 

Private Attributes

G4NistManagernistMan
 
G4Materialcopper
 
G4MaterialSiLi
 
G4Materialdolorite
 
G4MaterialHPGe
 
G4Materialmars1
 
G4MaterialhawaiianWD
 
G4MaterialhawaiianRF
 
G4Materialanorthosite
 
G4Materialbasalt
 
G4Materialgabbro
 
G4MaterialgabbroWD
 
G4MaterialgabbroRF
 
G4MaterialAir
 
G4MaterialSci
 
G4MaterialVacuum
 
G4MaterialmadaBasalt
 
G4MaterialicelandicBasalt
 
G4MaterialicelandicWD
 
G4MaterialicelandicRF
 
G4MaterialGaAs
 
G4Materialgalactic
 

Static Private Attributes

static XrayFluoNistMaterialsinstance = 0
 

Detailed Description

Definition at line 45 of file XrayFluoNistMaterials.hh.

Constructor & Destructor Documentation

◆ ~XrayFluoNistMaterials()

XrayFluoNistMaterials::~XrayFluoNistMaterials ( )

Definition at line 45 of file XrayFluoNistMaterials.cc.

46 {
47  delete dolorite;
48  delete HPGe;
49  delete SiLi;
50  delete mars1;
51  delete anorthosite;
52  delete basalt;
53  delete gabbro;
54  delete gabbroWD;
55  delete gabbroRF;
56  delete Air;
57  delete Sci;
58  delete Vacuum;
59  delete madaBasalt;
60  delete icelandicBasalt;
61  delete icelandicWD;
62  delete icelandicRF;
63  delete GaAs;
64  delete galactic;
65  delete copper;
66  // delete nickel;
67  delete hawaiianRF;
68  delete hawaiianWD;
69 
70 
71 
72 }

◆ XrayFluoNistMaterials()

XrayFluoNistMaterials::XrayFluoNistMaterials ( )
private

Definition at line 42 of file XrayFluoNistMaterials.cc.

43 { CreateMaterials();}
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Member Function Documentation

◆ CreateMaterials()

void XrayFluoNistMaterials::CreateMaterials ( )
private

Definition at line 102 of file XrayFluoNistMaterials.cc.

103 {
104 
105  G4double density;
106  std::vector<G4int> natoms;
107  std::vector<G4double> fractionMass;
108  std::vector<G4String> elements;
109 
110 
111  //instancing G4NistManager
112  nistMan = G4NistManager::Instance();
113  nistMan->SetVerbose(1);
114 
115  // Materials Definitions
116 
117 
119  // Madagascar Basalt //
121 
122 
123  // Define Madagascar Basalt main components 0054.PP.0044 sample
124  density = 3*g/cm3;
125  elements.push_back("Si"); fractionMass.push_back(0.1992); // 0.007093 mol/g(mat)
126  elements.push_back("Ti"); fractionMass.push_back(0.02027); // 4.235e-4
127  elements.push_back("Al"); fractionMass.push_back(0.04758); // 0.001763
128  elements.push_back("Fe"); fractionMass.push_back(0.1303); // 0.002333
129  elements.push_back("Mn"); fractionMass.push_back(0.001549);// 2.820e-5
130  elements.push_back("Mg"); fractionMass.push_back(0.08141); // 0.003350
131  elements.push_back("Ca"); fractionMass.push_back(0.06468); // 0.001614
132  elements.push_back("Na"); fractionMass.push_back(0.01692); // 7.360e-4
133  elements.push_back("K"); fractionMass.push_back(0.008576);// 2.193e-4
134  elements.push_back("P"); fractionMass.push_back(0.001977);// 6.383e-5
135  elements.push_back("O"); fractionMass.push_back(0.427538);// 0.02672
136 
137  // sum is 0.04434383 total number of moles of atoms in one gram of material
138  // 2.248766e8 g per 10.000.000 moles.
139 
140  G4Material* madaBasaltMain= nistMan->ConstructNewMaterial("MadaBasaltMain",elements, fractionMass, density);
141  elements.clear();
142  fractionMass.clear();
143 
144 // Define Madagascar Basalt traces components 0054.PP.0044 sample
145  density = 3*g/cm3;
146 
147 
148  elements.push_back("Ti"); natoms.push_back(33);
149  elements.push_back("Ba"); natoms.push_back(4131);
150  elements.push_back("Ce"); natoms.push_back(694);
151  elements.push_back("Co"); natoms.push_back(965);
152  elements.push_back("Cr"); natoms.push_back(5584);
153  elements.push_back("La"); natoms.push_back(269);
154  elements.push_back("Nb"); natoms.push_back(259);
155  elements.push_back("Nd"); natoms.push_back(410);
156  elements.push_back("Ni"); natoms.push_back(389);
157  elements.push_back("Rb"); natoms.push_back(227);
158  elements.push_back("Sc"); natoms.push_back(212);
159  elements.push_back("Sr"); natoms.push_back(8686);
160  elements.push_back("V"); natoms.push_back(4203);
161  elements.push_back("Y"); natoms.push_back(272);
162  elements.push_back("Zn"); natoms.push_back(1440);
163  elements.push_back("Th"); natoms.push_back(19);
164  elements.push_back("Sm"); natoms.push_back(93);
165  elements.push_back("Eu"); natoms.push_back(32);
166  elements.push_back("Gd"); natoms.push_back(89);
167  elements.push_back("Tb"); natoms.push_back(13);
168  elements.push_back("Yb"); natoms.push_back(15);
169  elements.push_back("Lu"); natoms.push_back(2);
170  elements.push_back("Ta"); natoms.push_back(15);
171  elements.push_back("Hf"); natoms.push_back(62);
172 
173  //tot 28114/10e7 weight: 2335253.28 g per 10e6 moles
174 
175  G4Material* madaBasaltTraces= nistMan->ConstructNewMaterial("MadaBasaltTraces", elements, natoms, density);
176  elements.clear();
177  natoms.clear();
178 
179  // Define Madacagascar Basalt complete material 0054.PP.0044 sample
180  density = 3*g/cm3;
181 
182  madaBasalt= new G4Material("MadaBasalt", density, 2);
183  madaBasalt->AddMaterial(madaBasaltMain, 0.9897);
184  madaBasalt->AddMaterial(madaBasaltTraces, 0.0103);
185 
186 
187 
189  // Iceland Basalt 0029.PP.0035 sample //
191 
192  elements.push_back("Si"); fractionMass.push_back(0.2313);
193  elements.push_back("Ti"); fractionMass.push_back(0.0127);
194  elements.push_back("Al"); fractionMass.push_back(0.0702);
195  elements.push_back("Fe"); fractionMass.push_back(0.1134);
196  elements.push_back("Mn"); fractionMass.push_back(0.0019);
197  elements.push_back("Mg"); fractionMass.push_back(0.0349);
198  elements.push_back("Ca"); fractionMass.push_back(0.0756);
199  elements.push_back("Na"); fractionMass.push_back(0.0892);
200  elements.push_back("K"); fractionMass.push_back(0.0032);
201  elements.push_back("P"); fractionMass.push_back(0.00096);
202  elements.push_back("S"); fractionMass.push_back(0.0004);
203  elements.push_back("O"); fractionMass.push_back(0.36624);
204 
205  // Define Icelandic Basalt main components 0029.PP.0035 sample
206  density = 3*g/cm3;
207  G4Material* icelandicBasaltMain= nistMan->ConstructNewMaterial("IceBasaltMain",elements, fractionMass, density);
208  elements.clear();
209  fractionMass.clear();
210 
211  // Define Icelandic Basalt traces components 0029.PP.0035 sample
212  density = 3*g/cm3;
213 
214  elements.push_back("Ba"); natoms.push_back(756);
215  elements.push_back("Ce"); natoms.push_back(328);
216  elements.push_back("Co"); natoms.push_back(643);
217  elements.push_back("Cr"); natoms.push_back(1000);
218  elements.push_back("Cu"); natoms.push_back(1396);
219  elements.push_back("Ga"); natoms.push_back(190);
220  elements.push_back("La"); natoms.push_back(103);
221  elements.push_back("Mo"); natoms.push_back(9);
222  elements.push_back("Nb"); natoms.push_back(114);
223  elements.push_back("Nd"); natoms.push_back(104);
224  elements.push_back("Ni"); natoms.push_back(544);
225  elements.push_back("Rb"); natoms.push_back(78);
226  elements.push_back("S"); natoms.push_back(5550);
227  elements.push_back("Sc"); natoms.push_back(531);
228  elements.push_back("Sr"); natoms.push_back(1353);
229  elements.push_back("U"); natoms.push_back(22);
230  elements.push_back("V"); natoms.push_back(4533);
231  elements.push_back("Y"); natoms.push_back(408);
232  elements.push_back("Zn"); natoms.push_back(1259);
233  elements.push_back("Zr"); natoms.push_back(1274);
234 
235  G4Material* icelandicBasaltTraces= nistMan->ConstructNewMaterial("IceBasaltTraces", elements, natoms, density);
236 
237  elements.clear();
238  natoms.clear();
239 
240  // Define Icelandic Basalt complete material 0029.PP.0035 sample
241  density = 3*g/cm3;
242  icelandicBasalt= new G4Material("IceBasalt", density, 2);
243  icelandicBasalt->AddMaterial(icelandicBasaltMain, 0.9978);
244  icelandicBasalt->AddMaterial(icelandicBasaltTraces, 0.0022);
245 
246 
248  // Dolorite //
250 
251  // Define dolorite main components 0055.PP.0038 sample
252 
253  density = 3*g/cm3;
254 
255  elements.push_back("Fe"); fractionMass.push_back(0.1750);
256  elements.push_back("Ti"); fractionMass.push_back(0.0082);
257  elements.push_back("Ca"); fractionMass.push_back(0.0753);
258  elements.push_back("Si"); fractionMass.push_back(0.2188);
259  elements.push_back("Al"); fractionMass.push_back(0.0676);
260  elements.push_back("Mg"); fractionMass.push_back(0.0008);
261  elements.push_back("O"); fractionMass.push_back(0.4377);
262  elements.push_back("Mn"); fractionMass.push_back(0.0015);
263  elements.push_back("Na"); fractionMass.push_back(0.0134);
264  elements.push_back("K"); fractionMass.push_back(0.0011);
265  elements.push_back("P"); fractionMass.push_back(0.0006);
266 
267 
268  G4Material* doloriteMain = nistMan->ConstructNewMaterial("Dolorite", elements, fractionMass, density);
269 
270  elements.clear();
271  fractionMass.clear();
272 
273  // define traces in dolorite 0055.PP.0038 sample
274 
275  density = 3*g/cm3;
276 
277  elements.push_back("Nb"); natoms.push_back(5);
278  elements.push_back("Zr"); natoms.push_back(91);
279  elements.push_back("Y"); natoms.push_back(29);
280  elements.push_back("Sr"); natoms.push_back(140);
281  elements.push_back("Rb"); natoms.push_back(3);
282  elements.push_back("Ga"); natoms.push_back(20);
283  elements.push_back("Zn"); natoms.push_back(99);
284  elements.push_back("Ni"); natoms.push_back(77);
285  elements.push_back("Sc"); natoms.push_back(32);
286  elements.push_back("V"); natoms.push_back(314);
287  elements.push_back("Cr"); natoms.push_back(130);
288  elements.push_back("Co"); natoms.push_back(56);
289  elements.push_back("Cu"); natoms.push_back(119);
290  elements.push_back("Ba"); natoms.push_back(38);
291  elements.push_back("Ce"); natoms.push_back(15);
292  elements.push_back("Nd"); natoms.push_back(9);
293 
294  G4Material* tracesOfDolorite= nistMan->ConstructNewMaterial("TracesOfDolorite", elements, natoms, density);
295 
296  elements.clear();
297  natoms.clear();
298 
299  // define dolorite (full) -- 0055.PP.0038 sample
300 
301  density = 3*g/cm3;
302  dolorite = new G4Material("Dolorite", density, 2);
303  dolorite->AddMaterial(tracesOfDolorite, 0.0027842352);
304  dolorite->AddMaterial(doloriteMain, 0.9972157648);
305 
307  // Mars1 //
309 
310 
311  // define mars1 -- 01.PP.0030 sample
312 
313  density = 3*g/cm3;
314 
315  elements.push_back("Fe"); fractionMass.push_back(0.100916);
316  elements.push_back("Ti"); fractionMass.push_back(0.0186804);
317  elements.push_back("Ca"); fractionMass.push_back(0.0404091);
318  elements.push_back("Si"); fractionMass.push_back(0.196378);
319  elements.push_back("Al"); fractionMass.push_back(0.103282);
320  elements.push_back("Mg"); fractionMass.push_back(0.0241622);
321  elements.push_back("Mn"); fractionMass.push_back(0.00184331);
322  elements.push_back("Na"); fractionMass.push_back(0.0177908);
323  elements.push_back("K"); fractionMass.push_back(0.00574498);
324  elements.push_back("P"); fractionMass.push_back(0.00280169);
325  elements.push_back("O"); fractionMass.push_back(0.48799152);
326 
327 
328  G4Material* mars1Main = nistMan->ConstructNewMaterial("Mars1 Main components", elements, fractionMass, density);
329 
330  elements.clear();
331  fractionMass.clear();
332 
333  elements.push_back("Nb"); natoms.push_back(55);
334  elements.push_back("Zr"); natoms.push_back(433);
335  elements.push_back("Y"); natoms.push_back(58);
336  elements.push_back("Sr"); natoms.push_back(968);
337  elements.push_back("Rb"); natoms.push_back(16);
338  elements.push_back("Ga"); natoms.push_back(24);
339  elements.push_back("Zn"); natoms.push_back(109);
340  elements.push_back("Ni"); natoms.push_back(70);
341  elements.push_back("Sc"); natoms.push_back(21);
342  elements.push_back("V"); natoms.push_back(134);
343  elements.push_back("Cr"); natoms.push_back(141);
344  elements.push_back("Co"); natoms.push_back(30);
345  elements.push_back("Cu"); natoms.push_back(19);
346  elements.push_back("Ba"); natoms.push_back(580);
347  elements.push_back("Pb"); natoms.push_back(4);
348  elements.push_back("S"); natoms.push_back(444);
349  elements.push_back("U"); natoms.push_back(2);
350 
351  density = 3*g/cm3;
352  G4Material* tracesOfMars1 = nistMan->ConstructNewMaterial("TracesOfMars1", elements, natoms, density);
353 
354  elements.clear();
355  natoms.clear();
356 
357  density = 3*g/cm3;
358  mars1 = new G4Material("Mars1", density, 2);
359  mars1->AddMaterial(tracesOfMars1, 0.0044963163);
360  mars1->AddMaterial(mars1Main, 0.9955036837);
361 
363  // Hawaiian -- WD coposition //
365 
366  density = 3*g/cm3;
367 
368  elements.push_back("Fe"); fractionMass.push_back(1.1819860E-01);
369  elements.push_back("Ti"); fractionMass.push_back(2.2781000E-02);
370  elements.push_back("Ca"); fractionMass.push_back(4.5026100E-02);
371  elements.push_back("Si"); fractionMass.push_back(2.0518860E-01);
372  elements.push_back("Al"); fractionMass.push_back(1.3285430E-01);
373  elements.push_back("Mg"); fractionMass.push_back(2.4120000E-03);
374  elements.push_back("Na"); fractionMass.push_back(2.2257000E-02);
375  elements.push_back("K"); fractionMass.push_back(4.9812000E-03);
376  elements.push_back("O"); fractionMass.push_back(4.4630120E-01);
377 
378  hawaiianWD = nistMan->ConstructNewMaterial("HawaiianWD", elements, fractionMass, density);
379 
380  elements.clear();
381  fractionMass.clear();
382 
384  // Hawaiian -- RF composition //
386 
387  density = 3*g/cm3;
388 
389 
390  elements.push_back("Fe"); fractionMass.push_back(1.1120460E-01);
391  elements.push_back("Ti"); fractionMass.push_back(2.1582000E-02);
392  elements.push_back("Ca"); fractionMass.push_back(4.3596700E-02);
393  elements.push_back("Si"); fractionMass.push_back(2.1313440E-01);
394  elements.push_back("Al"); fractionMass.push_back(1.0374280E-01);
395  elements.push_back("Mg"); fractionMass.push_back(1.9296000E-02);
396  elements.push_back("Na"); fractionMass.push_back(2.8192200E-02);
397  elements.push_back("K"); fractionMass.push_back(5.8114000E-03);
398  elements.push_back("P"); fractionMass.push_back(4.8004000E-03);
399  elements.push_back("Mn"); fractionMass.push_back(2.3235000E-03);
400  elements.push_back("O"); fractionMass.push_back(4.4531600E-01);
401 
402  hawaiianRF = nistMan->ConstructNewMaterial("HawaiianRF", elements, fractionMass, density);
403 
404  elements.clear();
405  fractionMass.clear();
406 
408  // Icelandic -- WD composition //
410 
411  density = 3*g/cm3;
412 
413 
414  elements.push_back("Si"); fractionMass.push_back(2.2949340E-01);
415  elements.push_back("Ti"); fractionMass.push_back(1.1990000E-02);
416  elements.push_back("Al"); fractionMass.push_back(7.0396900E-02);
417  elements.push_back("Fe"); fractionMass.push_back(1.1330280E-01);
418  elements.push_back("Mg"); fractionMass.push_back(3.4974000E-02);
419  elements.push_back("Ca"); fractionMass.push_back(7.5758200E-02);
420  elements.push_back("Na"); fractionMass.push_back(1.8547500E-02);
421  elements.push_back("K"); fractionMass.push_back(3.3208000E-03);
422  elements.push_back("O"); fractionMass.push_back(4.4121640E-01);
423 
424  icelandicWD = nistMan->ConstructNewMaterial("IcelandicWD", elements, fractionMass, density);
425 
426  elements.clear();
427  fractionMass.clear();
428 
429 
431  // Icelandic -- RF composition //
433 
434  density = 3*g/cm3;
435 
436 
437  elements.push_back("Si"); fractionMass.push_back(2.4304800E-01);
438  elements.push_back("Ti"); fractionMass.push_back(1.3788500E-02);
439  elements.push_back("Al"); fractionMass.push_back(6.5103900E-02);
440  elements.push_back("Fe"); fractionMass.push_back(1.1819860E-01);
441  elements.push_back("Mn"); fractionMass.push_back(2.3235000E-03);
442  elements.push_back("Mg"); fractionMass.push_back(2.3517000E-02);
443  elements.push_back("Ca"); fractionMass.push_back(8.2190500E-02);
444  elements.push_back("K"); fractionMass.push_back(3.3208000E-03);
445  elements.push_back("P"); fractionMass.push_back(1.3092000E-03);
446  elements.push_back("O"); fractionMass.push_back(4.4620000E-01);
447 
448  icelandicRF = nistMan->ConstructNewMaterial("IcelandicRF", elements, fractionMass, density);
449 
450  elements.clear();
451  fractionMass.clear();
452 
454  // Gabbro -- WD composition //
456 
457  density = 3*g/cm3;
458 
459  elements.push_back("Si"); fractionMass.push_back(1.8696000E-01);
460  elements.push_back("Ti"); fractionMass.push_back(2.3380500E-02);
461  elements.push_back("Al"); fractionMass.push_back(4.6049100E-02);
462  elements.push_back("Fe"); fractionMass.push_back(1.2239500E-01);
463  elements.push_back("Mg"); fractionMass.push_back(8.3817000E-02);
464  elements.push_back("Ca"); fractionMass.push_back(1.0720500E-01);
465  elements.push_back("Na"); fractionMass.push_back(5.9352000E-03);
466  elements.push_back("K"); fractionMass.push_back(1.6604000E-03);
467  elements.push_back("O"); fractionMass.push_back(4.2259780E-01);
468 
469  gabbroWD = nistMan->ConstructNewMaterial("GabbroWD", elements, fractionMass, density);
470 
471  elements.clear();
472  fractionMass.clear();
473 
475  // Gabbro -- RF composition //
477 
478  density = 3*g/cm3;
479 
480 
481  elements.push_back("Si"); fractionMass.push_back(1.6826400E-01);
482  elements.push_back("Ti"); fractionMass.push_back(2.2781000E-02);
483  elements.push_back("Al"); fractionMass.push_back(5.8223000E-02);
484  elements.push_back("Fe"); fractionMass.push_back(1.2729080E-01);
485  elements.push_back("Mn"); fractionMass.push_back(1.5490000E-03);
486  elements.push_back("Mg"); fractionMass.push_back(8.3817000E-02);
487  elements.push_back("Ca"); fractionMass.push_back(1.1721080E-01);
488  elements.push_back("Na"); fractionMass.push_back(0.0000000E+00);
489  elements.push_back("K"); fractionMass.push_back(1.6604000E-03);
490  elements.push_back("P"); fractionMass.push_back(1.7456000E-03);
491  elements.push_back("O"); fractionMass.push_back(4.1845840E-01);
492 
493  gabbroRF = nistMan->ConstructNewMaterial("GabbroRF", elements, fractionMass, density);
494 
495  elements.clear();
496  fractionMass.clear();
497 
498 
500  // Anorthosite //
502 
503 
504  density = 2.8*g/cm3;
505 
506  elements.push_back("Fe"); fractionMass.push_back(0.095283);
507  elements.push_back("Mn"); fractionMass.push_back(0.00137086);
508  elements.push_back("Ni"); fractionMass.push_back(5e-5);
509  elements.push_back("Cu"); fractionMass.push_back(5.2e-4);
510  elements.push_back("Na"); fractionMass.push_back(0.017635);
511  elements.push_back("Mg"); fractionMass.push_back(0.0245361);
512  elements.push_back("Al"); fractionMass.push_back(0.0800355);
513  elements.push_back("Si"); fractionMass.push_back(0.232204);
514  elements.push_back("Ca"); fractionMass.push_back(0.0635368);
515  elements.push_back("K"); fractionMass.push_back(0.00464912);
516  elements.push_back("C"); fractionMass.push_back(0.000837803);
517  elements.push_back("P"); fractionMass.push_back(0.00176742);
518  elements.push_back("Ti"); fractionMass.push_back(0.0240879);
519  elements.push_back("Cl"); fractionMass.push_back(0.00014);
520  elements.push_back("Pd"); fractionMass.push_back(0.00001);
521  elements.push_back("Cd"); fractionMass.push_back(0.00018);
522  elements.push_back("Ag"); fractionMass.push_back(0.00048);
523  elements.push_back("S"); fractionMass.push_back(0.00144);
524  elements.push_back("V"); fractionMass.push_back(0.00228);
525  elements.push_back("Ba"); fractionMass.push_back(0.00151);
526  elements.push_back("O"); fractionMass.push_back(0.447026);
527 
528  anorthosite = nistMan->ConstructNewMaterial("Anorthosite", elements, fractionMass, density);
529 
530  elements.clear();
531  fractionMass.clear();
532 
534  // Gabbro 0059.PP.0048 //
536 
537 
538  density = 3.0*g/cm3;
539 
540  elements.push_back("Si"); fractionMass.push_back(1.8284688E-01);
541  elements.push_back("Ti"); fractionMass.push_back(2.2601150E-02);
542  elements.push_back("Al"); fractionMass.push_back(4.4831710E-02);
543  elements.push_back("Fe"); fractionMass.push_back(1.2578402E-01);
544  elements.push_back("Mn"); fractionMass.push_back(1.3166500E-03);
545  elements.push_back("Mg"); fractionMass.push_back(8.1706500E-02);
546  elements.push_back("Ca"); fractionMass.push_back(1.0506090E-01);
547  elements.push_back("Na"); fractionMass.push_back(5.4900600E-03);
548  elements.push_back("K"); fractionMass.push_back(1.4943600E-03);
549  elements.push_back("P"); fractionMass.push_back(3.4912000E-04);
550  elements.push_back("O"); fractionMass.push_back(4.0651865E-01);
551 
552  gabbro = nistMan->ConstructNewMaterial("Gabbro", elements, fractionMass, density);
553 
554  elements.clear();
555  fractionMass.clear();
556 
557  //define gallium arsenide
558 
559  elements.push_back("Ga"); natoms.push_back(1);
560  elements.push_back("As"); natoms.push_back(1);
561 
562  density = 5.32 * g/cm3;
563  GaAs = nistMan->ConstructNewMaterial("gallium arsenide", elements, natoms, density);
564 
565  elements.clear();
566  natoms.clear();
567 
568  /*
569  // define germanium
570 
571  density = 5.32 * g/cm3;
572 
573  elements.push_back("Ge"); natoms.push_back(1);
574 
575  G4cout << elements[1] <<", "<<natoms[1] <<", " << elements.size() << ", " << natoms.size() << G4endl;
576 
577 
578  HPGe = nistMan->ConstructNewMaterial("High Purity Germanium",elements, natoms, density);
579 
580  elements.clear();
581  natoms.clear();
582  */
583  //define scintillator
584 
585  elements.push_back("C"); natoms.push_back(9);
586  elements.push_back("H"); natoms.push_back(10);
587 
588  density = 1.032*g/cm3;
589  Sci = nistMan->ConstructNewMaterial("Scintillator", elements, natoms, density);
590 
591  elements.clear();
592  natoms.clear();
593 
594  //define vacuum
595 
596  density = universe_mean_density; //from PhysicalConstants.h
597  G4double pressure = 3.e-18*pascal;
598  G4double temperature = 2.73*kelvin;
599  Vacuum = new G4Material("Galactic", 1., 1.01*g/mole, density,
600  kStateGas,temperature,pressure);
601 
602  elements.clear();
603  natoms.clear();
604 
605  //define basalt
606  density = 3.*g/cm3;
607 
608  elements.push_back("Fe"); fractionMass.push_back(0.1200);
609  elements.push_back("Ti"); fractionMass.push_back(0.0160);
610  elements.push_back("Ca"); fractionMass.push_back(0.0750);
611  elements.push_back("Si"); fractionMass.push_back(0.2160);
612  elements.push_back("Al"); fractionMass.push_back(0.0710);
613  elements.push_back("Mg"); fractionMass.push_back(0.0590);
614  elements.push_back("O"); fractionMass.push_back(0.4430);
615 
616  basalt = nistMan->ConstructNewMaterial("Basalt", elements, fractionMass, density);
617 
618  elements.clear();
619  fractionMass.clear();
620 
621 
622  // define silicon
623 
624  density = 2330*kg/m3;
625 
626  // workaround for a problem in nistMan: it doesn't like material with a single element.
627 
628  elements.push_back("Si"); natoms.push_back(1);
629  elements.push_back("Si"); natoms.push_back(1);
630 
631  SiLi = nistMan->ConstructNewMaterial("SiLi",elements, natoms, density);
632 
633  elements.clear();
634  natoms.clear();
635 
636 
637  // define copper
638 
639  density = 8920*kg/m3;
640 
641  // workaround for a problem in nistMan: it doesn't like material with a single element.
642  elements.push_back("Cu"); natoms.push_back(1);
643  elements.push_back("Cu"); natoms.push_back(1);
644 
645  copper = nistMan->ConstructNewMaterial("Cu",elements, natoms, density);
646 
647  elements.clear();
648  natoms.clear();
649  /*
650  // define nikel
651 
652  density = 8908*kg/m3;
653 
654  // workaround for a problem in nistMan: it doesn't like material with a single element.
655  elements.push_back("Ni"); natoms.push_back(1);
656  elements.push_back("Ni"); natoms.push_back(1);
657 
658  nickel = nistMan->ConstructNewMaterial("Nickel",elements, natoms, density);
659  */
660  elements.clear();
661  natoms.clear();
662 
663 
664 
665  G4cout << *(G4Material::GetMaterialTable()) << G4endl;
666 }
G4Material::AddMaterial
void AddMaterial(G4Material *material, G4double fraction)
Definition: G4Material.cc:469
m3
static const double m3
Definition: G4SIunits.hh:130
python.hepunit.universe_mean_density
int universe_mean_density
Definition: hepunit.py:307
G4Material::GetMaterialTable
static G4MaterialTable * GetMaterialTable()
Definition: G4Material.cc:589
kStateGas
Definition: G4Material.hh:114
G4NistManager::Instance
static G4NistManager * Instance()
Definition: G4NistManager.cc:68
density
G4double density
Definition: TRTMaterials.hh:39
g
function g(Y1, Y2, PT2)
Definition: hijing1.383.f:5206
G4NistManager::ConstructNewMaterial
G4Material * ConstructNewMaterial(const G4String &name, const std::vector< G4String > &elm, const std::vector< G4int > &nbAtoms, G4double dens, G4bool isotopes=true, G4State state=kStateSolid, G4double temp=NTP_Temperature, G4double pressure=CLHEP::STP_Pressure)
Definition: G4NistManager.hh:475
G4cout
G4GLOB_DLL std::ostream G4cout
G4NistManager::SetVerbose
void SetVerbose(G4int)
Definition: G4NistManager.cc:185
pascal
#define pascal
Definition: SystemOfUnits.h:203
cm3
static const double cm3
Definition: G4SIunits.hh:120
kg
static const double kg
Definition: G4SIunits.hh:179
kelvin
static const double kelvin
Definition: G4SIunits.hh:278
mole
static const double mole
Definition: G4SIunits.hh:283
G4endl
#define G4endl
Definition: G4ios.hh:61
G4double
double G4double
Definition: G4Types.hh:76
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◆ GetInstance()

XrayFluoNistMaterials * XrayFluoNistMaterials::GetInstance ( void  )
static

Definition at line 75 of file XrayFluoNistMaterials.cc.

76 {
77  if (instance == 0)
78  {
79  instance = new XrayFluoNistMaterials;
80 
81  }
82  return instance;
83 }
XrayFluoNistMaterials::instance
static XrayFluoNistMaterials * instance
Definition: XrayFluoNistMaterials.hh:64
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◆ GetMaterial()

G4Material * XrayFluoNistMaterials::GetMaterial ( G4String  material)

Definition at line 85 of file XrayFluoNistMaterials.cc.

86 {
87 
88  //instancing G4NistManager
89  nistMan = G4NistManager::Instance();
90  nistMan->SetVerbose(0);
91 
92  //If not available at NIST, look for the local version of it
93  G4Material* mat = nistMan->FindOrBuildMaterial(material);
94  if (!mat) {
95  mat = G4Material::GetMaterial(material);
96  }
97  if (!mat) {G4cout << material << "Not Found, Please Retry"<< G4endl;}
98  return mat;
99 }
G4NistManager::FindOrBuildMaterial
G4Material * FindOrBuildMaterial(const G4String &name, G4bool isotopes=true, G4bool warning=false)
Definition: G4NistManager.hh:458
G4Material::GetMaterial
static G4Material * GetMaterial(const G4String &name, G4bool warning=true)
Definition: G4Material.cc:604
G4NistManager::Instance
static G4NistManager * Instance()
Definition: G4NistManager.cc:68
mat
Float_t mat
Definition: advanced/microbeam/plot.C:40
G4cout
G4GLOB_DLL std::ostream G4cout
G4NistManager::SetVerbose
void SetVerbose(G4int)
Definition: G4NistManager.cc:185
G4endl
#define G4endl
Definition: G4ios.hh:61
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Member Data Documentation

◆ Air

G4Material* XrayFluoNistMaterials::Air
private

Definition at line 80 of file XrayFluoNistMaterials.hh.

◆ anorthosite

G4Material* XrayFluoNistMaterials::anorthosite
private

Definition at line 75 of file XrayFluoNistMaterials.hh.

◆ basalt

G4Material* XrayFluoNistMaterials::basalt
private

Definition at line 76 of file XrayFluoNistMaterials.hh.

◆ copper

G4Material* XrayFluoNistMaterials::copper
private

Definition at line 68 of file XrayFluoNistMaterials.hh.

◆ dolorite

G4Material* XrayFluoNistMaterials::dolorite
private

Definition at line 70 of file XrayFluoNistMaterials.hh.

◆ GaAs

G4Material* XrayFluoNistMaterials::GaAs
private

Definition at line 87 of file XrayFluoNistMaterials.hh.

◆ gabbro

G4Material* XrayFluoNistMaterials::gabbro
private

Definition at line 77 of file XrayFluoNistMaterials.hh.

◆ gabbroRF

G4Material* XrayFluoNistMaterials::gabbroRF
private

Definition at line 79 of file XrayFluoNistMaterials.hh.

◆ gabbroWD

G4Material* XrayFluoNistMaterials::gabbroWD
private

Definition at line 78 of file XrayFluoNistMaterials.hh.

◆ galactic

G4Material* XrayFluoNistMaterials::galactic
private

Definition at line 88 of file XrayFluoNistMaterials.hh.

◆ hawaiianRF

G4Material* XrayFluoNistMaterials::hawaiianRF
private

Definition at line 74 of file XrayFluoNistMaterials.hh.

◆ hawaiianWD

G4Material* XrayFluoNistMaterials::hawaiianWD
private

Definition at line 73 of file XrayFluoNistMaterials.hh.

◆ HPGe

G4Material* XrayFluoNistMaterials::HPGe
private

Definition at line 71 of file XrayFluoNistMaterials.hh.

◆ icelandicBasalt

G4Material* XrayFluoNistMaterials::icelandicBasalt
private

Definition at line 84 of file XrayFluoNistMaterials.hh.

◆ icelandicRF

G4Material* XrayFluoNistMaterials::icelandicRF
private

Definition at line 86 of file XrayFluoNistMaterials.hh.

◆ icelandicWD

G4Material* XrayFluoNistMaterials::icelandicWD
private

Definition at line 85 of file XrayFluoNistMaterials.hh.

◆ instance

XrayFluoNistMaterials * XrayFluoNistMaterials::instance = 0
staticprivate

Definition at line 64 of file XrayFluoNistMaterials.hh.

◆ madaBasalt

G4Material* XrayFluoNistMaterials::madaBasalt
private

Definition at line 83 of file XrayFluoNistMaterials.hh.

◆ mars1

G4Material* XrayFluoNistMaterials::mars1
private

Definition at line 72 of file XrayFluoNistMaterials.hh.

◆ nistMan

G4NistManager* XrayFluoNistMaterials::nistMan
private

Definition at line 66 of file XrayFluoNistMaterials.hh.

◆ Sci

G4Material* XrayFluoNistMaterials::Sci
private

Definition at line 81 of file XrayFluoNistMaterials.hh.

◆ SiLi

G4Material* XrayFluoNistMaterials::SiLi
private

Definition at line 69 of file XrayFluoNistMaterials.hh.

◆ Vacuum

G4Material* XrayFluoNistMaterials::Vacuum
private

Definition at line 82 of file XrayFluoNistMaterials.hh.

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