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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 // * By using, copying, modifying or distributing the software (or * 21 // * any work based on the software) you agree to acknowledge its * 22 // * use in resulting scientific publications, and indicate your * 23 // * acceptance of all terms of the Geant4 Software license. * 24 // ******************************************************************** 25 // 26 // author: V. Grichine 27 // 28 // 25.04.12 V. Grichine - first implementation 29 // 30 // 04.09.18 V. Ivantchenko Major revision of interfaces and implementation 31 // 01.10.18 V. Grichine strange hyperon xsc 32 // 27.05.19 V. Ivantchenko Removed obsolete methods and members 33 // 34 35 #include "G4ComponentGGHadronNucleusXsc.hh" 36 37 #include "G4PhysicalConstants.hh" 38 #include "G4SystemOfUnits.hh" 39 #include "G4ParticleTable.hh" 40 #include "G4IonTable.hh" 41 #include "G4ParticleDefinition.hh" 42 #include "G4DynamicParticle.hh" 43 #include "G4HadronNucleonXsc.hh" 44 #include "G4Log.hh" 45 #include "G4Lambda.hh" 46 #include "G4Pow.hh" 47 #include "G4NuclearRadii.hh" 48 49 ////////////////////////////////////////////////////////////////////////////// 50 // 51 52 G4ComponentGGHadronNucleusXsc::G4ComponentGGHadronNucleusXsc() 53 : G4VComponentCrossSection(Default_Name()), 54 fTotalXsc(0.0),fElasticXsc(0.0),fInelasticXsc(0.0),fProductionXsc(0.0), 55 fDiffractionXsc(0.0),fAxsc2piR2(0.0),fModelInLog(0.0),fEnergy(0.0), 56 fParticle(nullptr),fZ(0),fA(0), fL(0) 57 { 58 theGamma = G4Gamma::Gamma(); 59 theProton = G4Proton::Proton(); 60 theNeutron = G4Neutron::Neutron(); 61 theAProton = G4AntiProton::AntiProton(); 62 theANeutron = G4AntiNeutron::AntiNeutron(); 63 thePiPlus = G4PionPlus::PionPlus(); 64 thePiMinus = G4PionMinus::PionMinus(); 65 theKPlus = G4KaonPlus::KaonPlus(); 66 theKMinus = G4KaonMinus::KaonMinus(); 67 theK0S = G4KaonZeroShort::KaonZeroShort(); 68 theK0L = G4KaonZeroLong::KaonZeroLong(); 69 theLambda = G4Lambda::Lambda(); 70 71 hnXsc = new G4HadronNucleonXsc(); 72 } 73 74 ///////////////////////////////////////////////////////////////////////////// 75 76 G4ComponentGGHadronNucleusXsc::~G4ComponentGGHadronNucleusXsc() 77 { 78 delete hnXsc; 79 } 80 81 ////////////////////////////////////////////////////////////////////// 82 83 G4double G4ComponentGGHadronNucleusXsc::GetTotalElementCrossSection( 84 const G4ParticleDefinition* aParticle, 85 G4double kinEnergy, G4int Z, G4double A) 86 { 87 ComputeCrossSections(aParticle, kinEnergy, Z, G4lrint(A)); 88 return fTotalXsc; 89 } 90 91 //////////////////////////////////////////////////////////////////// 92 93 G4double G4ComponentGGHadronNucleusXsc::GetTotalIsotopeCrossSection( 94 const G4ParticleDefinition* aParticle, 95 G4double kinEnergy, G4int Z, G4int A) 96 { 97 ComputeCrossSections(aParticle, kinEnergy, Z, A); 98 return fTotalXsc; 99 } 100 101 ///////////////////////////////////////////////////////////////////// 102 103 G4double G4ComponentGGHadronNucleusXsc::GetInelasticElementCrossSection( 104 const G4ParticleDefinition* aParticle, 105 G4double kinEnergy, G4int Z, G4double A) 106 { 107 ComputeCrossSections(aParticle, kinEnergy, Z, G4lrint(A)); 108 return fInelasticXsc; 109 } 110 111 //////////////////////////////////////////////////////////////////// 112 113 G4double G4ComponentGGHadronNucleusXsc::GetInelasticIsotopeCrossSection( 114 const G4ParticleDefinition* aParticle, 115 G4double kinEnergy, G4int Z, G4int A) 116 { 117 ComputeCrossSections(aParticle, kinEnergy, Z, A); 118 return fInelasticXsc; 119 } 120 121 ////////////////////////////////////////////////////////////////// 122 123 G4double G4ComponentGGHadronNucleusXsc::GetElasticElementCrossSection( 124 const G4ParticleDefinition* aParticle, 125 G4double kinEnergy, G4int Z, G4double A) 126 { 127 ComputeCrossSections(aParticle, kinEnergy, Z, G4lrint(A)); 128 return fElasticXsc; 129 } 130 131 /////////////////////////////////////////////////////////////////// 132 133 G4double G4ComponentGGHadronNucleusXsc::GetElasticIsotopeCrossSection( 134 const G4ParticleDefinition* aParticle, 135 G4double kinEnergy, G4int Z, G4int A) 136 { 137 ComputeCrossSections(aParticle, kinEnergy, Z, A); 138 return fElasticXsc; 139 } 140 141 //////////////////////////////////////////////////////////////// 142 143 G4double G4ComponentGGHadronNucleusXsc::ComputeQuasiElasticRatio( 144 const G4ParticleDefinition* aParticle, 145 G4double kinEnergy, G4int Z, G4int A) 146 { 147 ComputeCrossSections(aParticle, kinEnergy, Z, A); 148 G4double ratio = (fInelasticXsc > 0.) 149 ? (fInelasticXsc - fProductionXsc)/fInelasticXsc : 0.; 150 ratio = std::max(ratio, 0.); 151 return ratio; 152 } 153 154 ///////////////////////////////////////////////////////////////////// 155 156 G4double G4ComponentGGHadronNucleusXsc::GetProductionElementCrossSection( 157 const G4ParticleDefinition* aParticle, 158 G4double kinEnergy, G4int Z, G4double A) 159 { 160 ComputeCrossSections(aParticle, kinEnergy, Z, G4lrint(A)); 161 return fProductionXsc; 162 } 163 164 //////////////////////////////////////////////////////////////////// 165 166 G4double G4ComponentGGHadronNucleusXsc::GetProductionIsotopeCrossSection( 167 const G4ParticleDefinition* aParticle, 168 G4double kinEnergy, G4int Z, G4int A) 169 { 170 ComputeCrossSections(aParticle, kinEnergy, Z, A); 171 return fProductionXsc; 172 } 173 174 //////////////////////////////////////////////////////////////////////////// 175 // 176 // Calculates total and inelastic Xsc, derives elastic as total 177 // inelastic accordong to Glauber model with Gribov correction calculated 178 // in the dipole approximation on light cone. Gaussian density of point-like 179 // nucleons helps to calculate rest integrals of the model. 180 // [1] B.Z. Kopeliovich, nucl-th/0306044 + simplification above 181 182 void G4ComponentGGHadronNucleusXsc::ComputeCrossSections( 183 const G4ParticleDefinition* aParticle, 184 G4double kinEnergy, G4int Z, G4int A, G4int nL) 185 { 186 // check cache 187 if(aParticle == fParticle && fZ == Z && fA == A && fL == nL && kinEnergy == fEnergy) 188 { return; } 189 fParticle = aParticle; 190 fZ = Z; 191 fA = A; 192 fL = nL; 193 fEnergy = kinEnergy; 194 G4Pow* pG4Pow=G4Pow::GetInstance(); 195 // 196 G4double cofInelastic = 2.4; 197 static const G4double cofTotal = 2.0; 198 G4double sigma(0.0), hpInXsc(0.0), hnInXsc(0.0), R(0.0); 199 200 G4int N = std::max(A - Z, 0); // number of neutrons 201 202 if( aParticle == theKPlus || aParticle == theKMinus || 203 aParticle == theK0S || aParticle == theK0L) 204 { 205 sigma = (1 == Z) 206 ? hnXsc->KaonNucleonXscNS(aParticle, theProton, kinEnergy) 207 : Z*hnXsc->KaonNucleonXscGG(aParticle, theProton, kinEnergy); 208 hpInXsc = hnXsc->GetInelasticHadronNucleonXsc(); 209 210 if(N > 0) { 211 sigma += N*hnXsc->KaonNucleonXscGG(aParticle, theNeutron, kinEnergy); 212 hnInXsc = hnXsc->GetInelasticHadronNucleonXsc(); 213 } 214 R = G4NuclearRadii::RadiusKNGG(A); 215 cofInelastic = 2.2; 216 } 217 else 218 { 219 sigma = Z*hnXsc->HadronNucleonXsc(aParticle, theProton, kinEnergy); 220 hpInXsc = hnXsc->GetInelasticHadronNucleonXsc(); 221 222 if(N > 0) { 223 sigma += N*hnXsc->HadronNucleonXsc(aParticle, theNeutron, kinEnergy); 224 hnInXsc = hnXsc->GetInelasticHadronNucleonXsc(); 225 } 226 R = G4NuclearRadii::RadiusHNGG(A); 227 if( nL > 0 ) { 228 G4double mp = theProton->GetPDGMass(); 229 G4double ml = theLambda->GetPDGMass(); 230 G4double kinCof = ml/mp; // moving hyperon - rest nucleon 231 G4double cHN(0.88); 232 sigma += nL*hnXsc->HadronNucleonXsc(theLambda, theProton, kinEnergy*kinCof); 233 R *= std::sqrt( pG4Pow->Z23( A - nL ) + cHN*pG4Pow->Z23( nL ) )/pG4Pow->Z13(A); 234 } 235 } 236 237 G4double nucleusSquare = cofTotal*pi*R*R; // basically 2piRR 238 G4double ratio = sigma/nucleusSquare; 239 G4double difratio = ratio/(1.+ratio); 240 fDiffractionXsc = 0.5*nucleusSquare*( difratio - G4Log( 1. + difratio ) ); 241 242 if( A > 1 ) 243 { 244 fTotalXsc = nucleusSquare*G4Log( 1. + ratio ) 245 *GetParticleBarCorTot(aParticle, Z); 246 247 // inelastic xsc 248 fAxsc2piR2 = cofInelastic*ratio; 249 fModelInLog = G4Log( 1. + fAxsc2piR2 ); 250 fInelasticXsc = nucleusSquare*fModelInLog/cofInelastic; 251 G4double barcorr = GetParticleBarCorIn(aParticle, Z); 252 fInelasticXsc *= barcorr; 253 fElasticXsc = std::max(fTotalXsc - fInelasticXsc, 0.); 254 255 G4double xratio = (Z*hpInXsc + N*hnInXsc)/nucleusSquare; 256 fProductionXsc = 257 nucleusSquare*G4Log(1. + cofInelastic*xratio)*barcorr/cofInelastic; 258 fProductionXsc = std::min(fProductionXsc, fInelasticXsc); 259 } 260 else // H 261 { 262 fTotalXsc = sigma; 263 fInelasticXsc = hpInXsc; 264 fElasticXsc = std::max(fTotalXsc - fInelasticXsc, 0.); 265 fProductionXsc = fInelasticXsc; 266 fDiffractionXsc = 0.2*fInelasticXsc; 267 // G4double xratio = hpInXsc/nucleusSquare; 268 // fProductionXsc = nucleusSquare*G4Log(1. + cofInelastic*xratio)/cofInelastic; 269 // fProductionXsc = std::min(fProductionXsc, fInelasticXsc); 270 } 271 /* 272 G4cout << "GGXsc: Z= " << Z << " A= " << A << " E= " << kinEnergy 273 << " xtot(b)= " << fTotalXsc/barn 274 << " xel(b)= " << fElasticXsc/barn << " xinel(b)= " << fInelasticXsc/barn 275 << G4endl; 276 */ 277 } 278 279 ////////////////////////////////////////////////////////////////////////// 280 // 281 // Return single-diffraction/inelastic cross-section ratio 282 283 G4double G4ComponentGGHadronNucleusXsc::GetRatioSD( 284 const G4DynamicParticle* aParticle, G4int A, G4int Z) 285 { 286 ComputeCrossSections(aParticle->GetDefinition(), 287 aParticle->GetKineticEnergy(), Z, A); 288 289 return (fInelasticXsc > 0.0) ? fDiffractionXsc/fInelasticXsc : 0.0; 290 } 291 292 ////////////////////////////////////////////////////////////////////////// 293 // 294 // Return quasi-elastic/inelastic cross-section ratio 295 296 G4double G4ComponentGGHadronNucleusXsc:: 297 GetRatioQE(const G4DynamicParticle* aParticle, G4int A, G4int Z) 298 { 299 ComputeCrossSections(aParticle->GetDefinition(), 300 aParticle->GetKineticEnergy(), Z, A); 301 302 return (fInelasticXsc > std::max(fProductionXsc, 0.)) 303 ? 1.0 - fProductionXsc/fInelasticXsc : 0.0; 304 } 305 306 ///////////////////////////////////////////////////////////////////////////////////// 307 // 308 // Returns hadron-nucleon total Xsc according to different parametrisations: 309 310 G4double G4ComponentGGHadronNucleusXsc::GetHadronNucleonXsc( 311 const G4DynamicParticle* aParticle, const G4Element* anElement) 312 { 313 G4int At = G4lrint(anElement->GetN()); // number of nucleons 314 G4int Zt = anElement->GetZasInt(); // number of protons 315 316 return GetHadronNucleonXsc(aParticle, At, Zt); 317 } 318 319 ///////////////////////////////////////////////////////////////////////////////////// 320 // 321 // Returns hadron-nucleon total Xsc according to different parametrisations: 322 323 G4double G4ComponentGGHadronNucleusXsc::GetHadronNucleonXsc( 324 const G4DynamicParticle* aParticle, G4int, G4int) 325 { 326 return hnXsc->HadronNucleonXscEL(aParticle->GetDefinition(), theProton, 327 aParticle->GetKineticEnergy()); 328 } 329 330 ///////////////////////////////////////////////////////////////////////////////////// 331 // 332 // Returns hadron-nucleon total Xsc according to PDG parametrisation 333 // 334 335 G4double G4ComponentGGHadronNucleusXsc::GetHadronNucleonXscPDG( 336 const G4DynamicParticle* aParticle, const G4Element* anElement) 337 { 338 G4int At = G4lrint(anElement->GetN()); // number of nucleons 339 G4int Zt = anElement->GetZasInt(); // number of protons 340 341 return GetHadronNucleonXscPDG(aParticle, At, Zt); 342 } 343 344 ///////////////////////////////////////////////////////////////////////////////////// 345 // 346 // Returns hadron-nucleon total Xsc according to PDG parametrisation 347 // 348 349 G4double G4ComponentGGHadronNucleusXsc::GetHadronNucleonXscPDG( 350 const G4DynamicParticle* aParticle, G4int At, G4int Zt) 351 { 352 G4double res = 0.0; 353 if(1 == At && 1 == Zt) { 354 res = hnXsc->HadronNucleonXscPDG(aParticle->GetDefinition(), theProton, 355 aParticle->GetKineticEnergy()); 356 } else if(1 == At && 0 == Zt) { 357 res = hnXsc->HadronNucleonXscPDG(aParticle->GetDefinition(), theNeutron, 358 aParticle->GetKineticEnergy()); 359 } else { 360 ComputeCrossSections(aParticle->GetDefinition(), 361 aParticle->GetKineticEnergy(), Zt, At); 362 res = fTotalXsc; 363 } 364 return res; 365 } 366 367 ///////////////////////////////////////////////////////////////////////////////////// 368 // 369 // Returns hadron-nucleon total cross-section based on N. Starkov parametrisation of 370 // data from mainly http://wwwppds.ihep.su:8001/c5-6A.html database 371 372 G4double G4ComponentGGHadronNucleusXsc::GetHadronNucleonXscNS( 373 const G4DynamicParticle* aParticle, const G4Element* anElement) 374 { 375 G4int At = G4lrint(anElement->GetN()); // number of nucleons 376 G4int Zt = anElement->GetZasInt(); // number of protons 377 378 return GetHadronNucleonXscNS(aParticle, At, Zt); 379 } 380 381 //////////////////////////////////////////////////////////////////////////// 382 // 383 // Returns hadron-nucleon total cross-section based on N. Starkov parametrisation of 384 // data from mainly http://wwwppds.ihep.su:8001/c5-6A.html database 385 386 G4double G4ComponentGGHadronNucleusXsc::GetHadronNucleonXscNS( 387 const G4DynamicParticle* aParticle, G4int At, G4int Zt) 388 { 389 G4double res = 0.0; 390 if(1 == At && 1 == Zt) { 391 res = hnXsc->HadronNucleonXscNS(aParticle->GetDefinition(), theProton, 392 aParticle->GetKineticEnergy()); 393 } else if(1 == At && 0 == Zt) { 394 res = hnXsc->HadronNucleonXscNS(aParticle->GetDefinition(), theNeutron, 395 aParticle->GetKineticEnergy()); 396 } 397 return res; 398 } 399 400 ///////////////////////////////////////////////////////////////////////////////////// 401 // 402 // Returns hadron-nucleon inelastic cross-section based on proper parametrisation 403 404 G4double 405 G4ComponentGGHadronNucleusXsc::GetHNinelasticXsc(const G4DynamicParticle* aParticle, 406 const G4Element* anElement) 407 { 408 G4int At = G4lrint(anElement->GetN()); // number of nucleons 409 G4int Zt = anElement->GetZasInt(); // number of protons 410 411 return GetHNinelasticXsc(aParticle, At, Zt); 412 } 413 414 ///////////////////////////////////////////////////////////////////////////////////// 415 // 416 // Returns hadron-nucleon inelastic cross-section based on proper parametrisation 417 418 G4double G4ComponentGGHadronNucleusXsc::GetHNinelasticXsc( 419 const G4DynamicParticle* aParticle, G4int At, G4int Zt) 420 { 421 const G4ParticleDefinition* hadron = aParticle->GetDefinition(); 422 G4double e = aParticle->GetKineticEnergy(); 423 G4int Nt = std::max(At - Zt, 0); 424 425 hnXsc->HadronNucleonXscNS(hadron, theProton, e); 426 G4double sumInelastic = Zt*hnXsc->GetInelasticHadronNucleonXsc(); 427 if(Nt > 0) { 428 hnXsc->HadronNucleonXscNS(hadron, theNeutron, e); 429 sumInelastic += Nt*hnXsc->GetInelasticHadronNucleonXsc(); 430 } 431 return sumInelastic; 432 } 433 434 ///////////////////////////////////////////////////////////////////////////////////// 435 // 436 // Returns hadron-nucleon inelastic cross-section based on FTF-parametrisation 437 438 G4double G4ComponentGGHadronNucleusXsc::GetHNinelasticXscVU( 439 const G4DynamicParticle* aParticle, G4int At, G4int Zt) 440 { 441 const G4ParticleDefinition* hadron = aParticle->GetDefinition(); 442 G4double e = aParticle->GetKineticEnergy(); 443 G4int Nt = std::max(At - Zt, 0); 444 445 hnXsc->HadronNucleonXscVU(hadron, theProton, e); 446 G4double sumInelastic = Zt*hnXsc->GetInelasticHadronNucleonXsc(); 447 if(Nt > 0) { 448 hnXsc->HadronNucleonXscVU(hadron, theNeutron, e); 449 sumInelastic += Nt*hnXsc->GetInelasticHadronNucleonXsc(); 450 } 451 return sumInelastic; 452 } 453 454 /////////////////////////////////////////////////////////////////////// 455 // 456 // 457 458 void G4ComponentGGHadronNucleusXsc::Description(std::ostream& outFile) const 459 { 460 outFile << "G4ComponentGGHadronNucleusXsc calculates total, inelastic and\n" 461 << "elastic cross sections for hadron-nucleus cross sections using\n" 462 << "the Glauber model with Gribov corrections. It is valid for all\n" 463 << "targets except hydrogen, and for incident p, pbar, n, sigma-,\n" 464 << "pi+, pi-, K+, K- and gammas with energies above 3 GeV. This is\n" 465 << "a cross section component which is to be used to build a cross\n" 466 << "data set.\n"; 467 } 468 469 470 /////////////////////////////////////////////////////////////////////////////// 471 // 472 // Correction arrays for GG <-> Bar changea at ~ 90 GeV 473 474 const G4double G4ComponentGGHadronNucleusXsc::fNeutronBarCorrectionTot[93] = { 475 476 1.0, 1.0, 1.42517e+00, // 1.118517e+00, 477 1.082002e+00, 1.116171e+00, 1.078747e+00, 1.061315e+00, 478 1.058205e+00, 1.082663e+00, 1.068500e+00, 1.076912e+00, 1.083475e+00, 1.079117e+00, 479 1.071856e+00, 1.071990e+00, 1.073774e+00, 1.079356e+00, 1.081314e+00, 1.082056e+00, 480 1.090772e+00, 1.096776e+00, 1.095828e+00, 1.097678e+00, 1.099157e+00, 1.103677e+00, 481 1.105132e+00, 1.109806e+00, 1.110816e+00, 1.117378e+00, 1.115165e+00, 1.115710e+00, 482 1.111855e+00, 1.110482e+00, 1.110112e+00, 1.106676e+00, 1.108706e+00, 1.105549e+00, 483 1.106318e+00, 1.106242e+00, 1.107672e+00, 1.107342e+00, 1.108119e+00, 1.106655e+00, 484 1.102588e+00, 1.096657e+00, 1.092920e+00, 1.086629e+00, 1.083592e+00, 1.076030e+00, 485 1.083777e+00, 1.089460e+00, 1.086545e+00, 1.079924e+00, 1.082218e+00, 1.077798e+00, 486 1.077062e+00, 1.072825e+00, 1.072241e+00, 1.072104e+00, 1.072490e+00, 1.069829e+00, 487 1.070398e+00, 1.065458e+00, 1.064968e+00, 1.060524e+00, 1.060048e+00, 1.057620e+00, 488 1.056428e+00, 1.055366e+00, 1.055017e+00, 1.052304e+00, 1.051767e+00, 1.049728e+00, 489 1.048745e+00, 1.047399e+00, 1.045876e+00, 1.042972e+00, 1.041824e+00, 1.039993e+00, 490 1.039021e+00, 1.036627e+00, 1.034176e+00, 1.032526e+00, 1.033633e+00, 1.036107e+00, 491 1.037803e+00, 1.031266e+00, 1.032991e+00, 1.033284e+00, 1.035015e+00, 1.033945e+00, 492 1.037075e+00, 1.034721e+00 493 494 }; 495 496 const G4double G4ComponentGGHadronNucleusXsc::fNeutronBarCorrectionIn[93] = { 497 498 1.0, 1.0, 1.167421e+00, 1.156250e+00, 1.205364e+00, 1.154225e+00, 1.120391e+00, // 6 499 1.124632e+00, 1.129460e+00, 1.107863e+00, 1.102152e+00, 1.104593e+00, 1.100285e+00, // 12 500 1.098450e+00, 1.092677e+00, 1.101124e+00, 1.106461e+00, 1.115049e+00, 1.123903e+00, // 18 501 1.126661e+00, 1.131259e+00, 1.133949e+00, 1.134185e+00, 1.133767e+00, 1.132813e+00, // 24 502 1.131515e+00, 1.144338e+00, // 1.130338e+00, 503 1.134171e+00, 1.139206e+00, 1.148474e+00, // 1.141474e+00, 504 1.142189e+00, 505 1.140725e+00, 1.140100e+00, 1.139848e+00, 1.137674e+00, 1.138645e+00, 1.136339e+00, 506 1.136439e+00, 1.135946e+00, 1.136431e+00, 1.135702e+00, 1.135703e+00, 1.134113e+00, 507 1.131935e+00, 1.128381e+00, 1.126373e+00, 1.122453e+00, 1.120908e+00, 1.115953e+00, 508 1.115947e+00, 1.114426e+00, 1.111749e+00, 1.106207e+00, 1.107494e+00, 1.103622e+00, 509 1.102576e+00, 1.098816e+00, 1.097889e+00, 1.097306e+00, 1.097130e+00, 1.094578e+00, 510 1.094552e+00, 1.090222e+00, 1.089358e+00, 1.085409e+00, 1.084560e+00, 1.082182e+00, 511 1.080773e+00, 1.079464e+00, 1.078724e+00, 1.076121e+00, 1.075235e+00, 1.073159e+00, 512 1.071920e+00, 1.070395e+00, 1.069503e+00, 1.067525e+00, 1.066919e+00, 1.065779e+00, 513 1.065319e+00, 1.063730e+00, 1.062092e+00, 1.061085e+00, 1.059908e+00, 1.059815e+00, 514 1.059109e+00, 1.051920e+00, 1.051258e+00, 1.049473e+00, 1.048823e+00, 1.045984e+00, 515 1.046435e+00, 1.042614e+00 516 517 }; 518 519 const G4double G4ComponentGGHadronNucleusXsc::fProtonBarCorrectionTot[93] = { 520 521 1.0, 1.0, 522 1.118515e+00, 1.082000e+00, 1.116169e+00, 1.078745e+00, 1.061313e+00, 1.058203e+00, 523 1.082661e+00, 1.068498e+00, 1.076910e+00, 1.083474e+00, 1.079115e+00, 1.071854e+00, 524 1.071988e+00, 1.073772e+00, 1.079355e+00, 1.081312e+00, 1.082054e+00, 1.090770e+00, 525 1.096774e+00, 1.095827e+00, 1.097677e+00, 1.099156e+00, 1.103676e+00, 1.105130e+00, 526 1.109805e+00, 1.110814e+00, 1.117377e+00, 1.115163e+00, 1.115708e+00, 1.111853e+00, 527 1.110480e+00, 1.110111e+00, 1.106674e+00, 1.108705e+00, 1.105548e+00, 1.106317e+00, 528 1.106241e+00, 1.107671e+00, 1.107341e+00, 1.108118e+00, 1.106654e+00, 1.102586e+00, 529 1.096655e+00, 1.092918e+00, 1.086628e+00, 1.083590e+00, 1.076028e+00, 1.083776e+00, 530 1.089458e+00, 1.086543e+00, 1.079923e+00, 1.082216e+00, 1.077797e+00, 1.077061e+00, 531 1.072824e+00, 1.072239e+00, 1.072103e+00, 1.072488e+00, 1.069828e+00, 1.070396e+00, 532 1.065456e+00, 1.064966e+00, 1.060523e+00, 1.060047e+00, 1.057618e+00, 1.056427e+00, 533 1.055365e+00, 1.055016e+00, 1.052303e+00, 1.051766e+00, 1.049727e+00, 1.048743e+00, 534 1.047397e+00, 1.045875e+00, 1.042971e+00, 1.041823e+00, 1.039992e+00, 1.039019e+00, 535 1.036626e+00, 1.034175e+00, 1.032525e+00, 1.033632e+00, 1.036106e+00, 1.037802e+00, 536 1.031265e+00, 1.032990e+00, 1.033283e+00, 1.035014e+00, 1.033944e+00, 1.037074e+00, 537 1.034720e+00 538 539 }; 540 541 const G4double G4ComponentGGHadronNucleusXsc::fProtonBarCorrectionIn[93] = { 542 543 1.0, 1.0, 544 1.147419e+00, // 1.167419e+00, 545 1.156248e+00, 1.205362e+00, 1.154224e+00, 1.120390e+00, 1.124630e+00, // 7 546 1.129459e+00, 1.107861e+00, 1.102151e+00, 1.104591e+00, 1.100284e+00, 1.098449e+00, // 13 547 1.092675e+00, 1.101122e+00, 1.106460e+00, 1.115048e+00, 1.123902e+00, 1.126659e+00, // 19 548 1.131258e+00, 1.133948e+00, 1.134183e+00, 1.133766e+00, 1.132812e+00, 1.131514e+00, // 25 549 1.140337e+00, // 1.130337e+00, 550 551 1.134170e+00, 1.139205e+00, 1.151472e+00, // 1.141472e+00, 552 1.142188e+00, 1.140724e+00, 553 1.140099e+00, 1.139847e+00, 1.137672e+00, 1.138644e+00, 1.136338e+00, 1.136438e+00, 554 1.135945e+00, 1.136429e+00, 1.135701e+00, 1.135702e+00, 1.134112e+00, 1.131934e+00, 555 1.128380e+00, 1.126371e+00, 1.122452e+00, 1.120907e+00, 1.115952e+00, 1.115946e+00, 556 1.114425e+00, 1.111748e+00, 1.106205e+00, 1.107493e+00, 1.103621e+00, 1.102575e+00, 557 1.098815e+00, 1.097888e+00, 1.097305e+00, 1.097129e+00, 1.094577e+00, 1.094551e+00, 558 1.090221e+00, 1.089357e+00, 1.085408e+00, 1.084559e+00, 1.082181e+00, 1.080772e+00, 559 1.079463e+00, 1.078723e+00, 1.076120e+00, 1.075234e+00, 1.073158e+00, 1.071919e+00, 560 1.070394e+00, 1.069502e+00, 1.067524e+00, 1.066918e+00, 1.065778e+00, 1.065318e+00, 561 1.063729e+00, 1.062091e+00, 1.061084e+00, 1.059907e+00, 1.059814e+00, 1.059108e+00, 562 1.051919e+00, 1.051257e+00, 1.049472e+00, 1.048822e+00, 1.045983e+00, 1.046434e+00, 563 1.042613e+00 564 565 }; 566 567 568 const G4double G4ComponentGGHadronNucleusXsc::fPionPlusBarCorrectionTot[93] = { 569 570 1.0, 1.0, 571 1.075927e+00, 1.074407e+00, 1.126098e+00, 1.100127e+00, 1.089742e+00, 1.083536e+00, 572 1.089988e+00, 1.103566e+00, 1.096922e+00, 1.126573e+00, 1.132734e+00, 1.136512e+00, 573 1.136629e+00, 1.133086e+00, 1.132428e+00, 1.129299e+00, 1.125622e+00, 1.126992e+00, 574 1.127840e+00, 1.162670e+00, 1.160392e+00, 1.157864e+00, 1.157227e+00, 1.154627e+00, 575 1.192555e+00, 1.197243e+00, 1.197911e+00, 1.200326e+00, 1.220053e+00, 1.215019e+00, 576 1.211703e+00, 1.209080e+00, 1.204248e+00, 1.203328e+00, 1.198671e+00, 1.196840e+00, 577 1.194392e+00, 1.193037e+00, 1.190408e+00, 1.188583e+00, 1.206127e+00, 1.210028e+00, 578 1.206434e+00, 1.204456e+00, 1.200547e+00, 1.199058e+00, 1.200174e+00, 1.200276e+00, 579 1.198912e+00, 1.213048e+00, 1.207160e+00, 1.208020e+00, 1.203814e+00, 1.202380e+00, 580 1.198306e+00, 1.197002e+00, 1.196027e+00, 1.195449e+00, 1.192563e+00, 1.192135e+00, 581 1.187556e+00, 1.186308e+00, 1.182124e+00, 1.180900e+00, 1.178224e+00, 1.176471e+00, 582 1.174811e+00, 1.173702e+00, 1.170827e+00, 1.169581e+00, 1.167205e+00, 1.165626e+00, 583 1.180244e+00, 1.177626e+00, 1.175121e+00, 1.173903e+00, 1.172192e+00, 1.171128e+00, 584 1.168997e+00, 1.166826e+00, 1.164130e+00, 1.165412e+00, 1.165504e+00, 1.165020e+00, 585 1.158462e+00, 1.158014e+00, 1.156519e+00, 1.156081e+00, 1.153602e+00, 1.154190e+00, 586 1.152974e+00 587 588 }; 589 590 const G4double G4ComponentGGHadronNucleusXsc::fPionPlusBarCorrectionIn[93] = { 591 592 1.0, 1.0, 593 1.140246e+00, 1.097872e+00, 1.104301e+00, 1.068722e+00, 1.056495e+00, 1.062622e+00, // 7 594 1.047987e+00, 1.037032e+00, 1.035686e+00, 1.042870e+00, 1.052222e+00, 1.075100e+00, // 13 595 1.084480e+00, 1.078286e+00, 1.081488e+00, 1.089713e+00, 1.099105e+00, 1.098003e+00, // 19 596 1.102175e+00, 1.117707e+00, 1.121734e+00, 1.125229e+00, 1.126457e+00, 1.128905e+00, // 25 597 1.163312e+00, 1.126263e+00, 1.126459e+00, 1.135191e+00, 1.116986e+00, 1.117184e+00, // 31 598 1.117037e+00, 1.116777e+00, 1.115858e+00, 1.115745e+00, 1.114489e+00, 1.113993e+00, // 37 599 1.113226e+00, 1.112818e+00, 1.111890e+00, 1.111238e+00, 1.111209e+00, 1.111775e+00, // 43 600 1.110256e+00, 1.109414e+00, 1.107647e+00, 1.106980e+00, 1.106096e+00, 1.107331e+00, // 49 601 1.107849e+00, 1.106407e+00, 1.103426e+00, 1.103896e+00, 1.101756e+00, 1.101031e+00, // 55 602 1.098915e+00, 1.098260e+00, 1.097768e+00, 1.097487e+00, 1.095964e+00, 1.095773e+00, // 61 603 1.093348e+00, 1.092687e+00, 1.090465e+00, 1.089821e+00, 1.088394e+00, 1.087462e+00, // 67 604 1.086571e+00, 1.085997e+00, 1.084451e+00, 1.083798e+00, 1.082513e+00, 1.081670e+00, // 73 605 1.080735e+00, 1.075659e+00, 1.074341e+00, 1.073689e+00, 1.072787e+00, 1.072237e+00, // 79 606 1.071107e+00, 1.069955e+00, 1.074856e+00, 1.065873e+00, 1.065938e+00, 1.065694e+00, 607 1.062192e+00, 1.061967e+00, 1.061180e+00, 1.060960e+00, 1.059646e+00, 1.059975e+00, 608 1.059658e+00 609 610 }; 611 612 613 const G4double G4ComponentGGHadronNucleusXsc::fPionMinusBarCorrectionTot[93] = { 614 615 1.0, 1.0, 616 1.3956e+00, 1.077959e+00, 1.129145e+00, 1.102088e+00, 1.089765e+00, 1.083542e+00, // 7 617 1.089995e+00, 1.104895e+00, 1.097154e+00, 1.127663e+00, 1.133063e+00, 1.137425e+00, // 13 618 1.136724e+00, 1.133859e+00, 1.132498e+00, 1.130276e+00, 1.127896e+00, 1.127656e+00, // 19 619 1.127905e+00, 1.164210e+00, 1.162259e+00, 1.160075e+00, 1.158978e+00, 1.156649e+00, // 25 620 1.194157e+00, 1.199177e+00, 1.198983e+00, 1.202325e+00, 1.221967e+00, 1.217548e+00, 621 1.214389e+00, 1.211760e+00, 1.207335e+00, 1.206081e+00, 1.201766e+00, 1.199779e+00, 622 1.197283e+00, 1.195706e+00, 1.193071e+00, 1.191115e+00, 1.208838e+00, 1.212681e+00, 623 1.209235e+00, 1.207163e+00, 1.203451e+00, 1.201807e+00, 1.203283e+00, 1.203388e+00, 624 1.202244e+00, 1.216509e+00, 1.211066e+00, 1.211504e+00, 1.207539e+00, 1.205991e+00, 625 1.202143e+00, 1.200724e+00, 1.199595e+00, 1.198815e+00, 1.196025e+00, 1.195390e+00, 626 1.191137e+00, 1.189791e+00, 1.185888e+00, 1.184575e+00, 1.181996e+00, 1.180229e+00, 627 1.178545e+00, 1.177355e+00, 1.174616e+00, 1.173312e+00, 1.171016e+00, 1.169424e+00, 628 1.184120e+00, 1.181478e+00, 1.179085e+00, 1.177817e+00, 1.176124e+00, 1.175003e+00, 629 1.172947e+00, 1.170858e+00, 1.168170e+00, 1.169397e+00, 1.169304e+00, 1.168706e+00, 630 1.162774e+00, 1.162217e+00, 1.160740e+00, 1.160196e+00, 1.157857e+00, 1.158220e+00, 631 1.157267e+00 632 }; 633 634 const G4double G4ComponentGGHadronNucleusXsc::fPionMinusBarCorrectionIn[93] = { 635 636 1.0, 1.0, 637 1.463e+00, 1.100898e+00, 1.106773e+00, 1.070289e+00, 1.040514e+00, 1.062628e+00, // 7 638 1.047992e+00, 1.038041e+00, 1.035862e+00, 1.043679e+00, 1.052466e+00, 1.065780e+00, // 13 639 1.070551e+00, 1.078869e+00, 1.081541e+00, 1.090455e+00, 1.100847e+00, 1.098511e+00, // 19 640 1.102226e+00, 1.118865e+00, 1.123143e+00, 1.126904e+00, 1.127785e+00, 1.130444e+00, // 25 641 1.148502e+00, 1.127678e+00, 1.127244e+00, 1.123634e+00, 1.118347e+00, 1.118988e+00, 642 1.118957e+00, 1.118696e+00, 1.118074e+00, 1.117722e+00, 1.116717e+00, 1.116111e+00, 643 1.115311e+00, 1.114745e+00, 1.113814e+00, 1.113069e+00, 1.113141e+00, 1.113660e+00, 644 1.112249e+00, 1.111343e+00, 1.109718e+00, 1.108942e+00, 1.108310e+00, 1.109549e+00, 645 1.110227e+00, 1.108846e+00, 1.106183e+00, 1.106354e+00, 1.104388e+00, 1.103583e+00, 646 1.101632e+00, 1.100896e+00, 1.100296e+00, 1.099873e+00, 1.098420e+00, 1.098082e+00, 647 1.095892e+00, 1.095162e+00, 1.093144e+00, 1.092438e+00, 1.091083e+00, 1.090142e+00, 648 1.089236e+00, 1.088604e+00, 1.087159e+00, 1.086465e+00, 1.085239e+00, 1.084388e+00, 649 1.083473e+00, 1.078373e+00, 1.077136e+00, 1.076450e+00, 1.075561e+00, 1.074973e+00, 650 1.073898e+00, 1.072806e+00, 1.067706e+00, 1.068684e+00, 1.068618e+00, 1.068294e+00, 651 1.065241e+00, 1.064939e+00, 1.064166e+00, 1.063872e+00, 1.062659e+00, 1.062828e+00, 652 1.062699e+00 653 654 }; 655 656 657 // 658 // 659 /////////////////////////////////////////////////////////////////////////////////////// 660