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>> 1 // This code implementation is the intellectual property of >> 2 // the GEANT4 collaboration. 1 // 3 // 2 // ******************************************* << 4 // By copying, distributing or modifying the Program (or any work 3 // * License and Disclaimer << 5 // based on the Program) you indicate your acceptance of this statement, 4 // * << 6 // and all its terms. 5 // * The Geant4 software is copyright of th << 6 // * the Geant4 Collaboration. It is provided << 7 // * conditions of the Geant4 Software License << 8 // * LICENSE and available at http://cern.ch/ << 9 // * include a list of copyright holders. << 10 // * << 11 // * Neither the authors of this software syst << 12 // * institutes,nor the agencies providing fin << 13 // * work make any representation or warran << 14 // * regarding this software system or assum << 15 // * use. Please see the license in the file << 16 // * for the full disclaimer and the limitatio << 17 // * << 18 // * This code implementation is the result << 19 // * technical work of the GEANT4 collaboratio << 20 // * By using, copying, modifying or distri << 21 // * any work based on the software) you ag << 22 // * use in resulting scientific publicati << 23 // * acceptance of all terms of the Geant4 Sof << 24 // ******************************************* << 25 // 7 // >> 8 // $Id: G4AntiDMesonZero.cc,v 1.2.8.1.2.2 1999/12/14 07:08:07 gunter Exp $ >> 9 // GEANT4 tag $Name: geant4-01-01 $ >> 10 // >> 11 // 26 // ------------------------------------------- 12 // ---------------------------------------------------------------------- 27 // GEANT 4 class implementation file 13 // GEANT 4 class implementation file 28 // 14 // >> 15 // For information related to this code contact: >> 16 // CERN, CN Division, ASD Group >> 17 // 29 // Created Hisaya Kurashi 18 // Created Hisaya Kurashige, 16 June 1997 30 // ******************************************* 19 // ********************************************************************** 31 // New impelemenataion as an utility class M << 20 // Change both methods to get the pointer into non-inlined H.Kurashige 4 Aug. 1998 32 // ------------------------------------------- << 21 // ---------------------------------------------------------------- 33 22 34 #include "G4AntiDMesonZero.hh" << 23 #include "g4std/fstream" >> 24 #include "g4std/iomanip" 35 25 36 #include "G4ParticleTable.hh" << 26 #include "G4AntiDMesonZero.hh" 37 #include "G4String.hh" << 38 #include "G4SystemOfUnits.hh" << 39 27 40 G4AntiDMesonZero* G4AntiDMesonZero::theInstanc << 28 #include "G4DecayTable.hh" 41 29 42 G4AntiDMesonZero* G4AntiDMesonZero::Definition << 30 // ###################################################################### >> 31 // ### AntiDMesonZero ### >> 32 // ###################################################################### >> 33 >> 34 G4AntiDMesonZero::G4AntiDMesonZero( >> 35 const G4String& aName, G4double mass, >> 36 G4double width, G4double charge, >> 37 G4int iSpin, G4int iParity, >> 38 G4int iConjugation, G4int iIsospin, >> 39 G4int iIsospin3, G4int gParity, >> 40 const G4String& pType, G4int lepton, >> 41 G4int baryon, G4int encoding, >> 42 G4bool stable, G4double lifetime, >> 43 G4DecayTable *decaytable ) >> 44 : G4VMeson( aName,mass,width,charge,iSpin,iParity, >> 45 iConjugation,iIsospin,iIsospin3,gParity,pType, >> 46 lepton,baryon,encoding,stable,lifetime,decaytable ) 43 { 47 { 44 if (theInstance != nullptr) return theInstan << 45 const G4String name = "anti_D0"; << 46 // search in particle table] << 47 G4ParticleTable* pTable = G4ParticleTable::G << 48 G4ParticleDefinition* anInstance = pTable->F << 49 if (anInstance == nullptr) { << 50 // create particle << 51 // << 52 // Arguments for constructor are as fol << 53 // name mass << 54 // 2*spin parity C- << 55 // 2*Isospin 2*Isospin3 << 56 // type lepton number ba << 57 // stable lifetime << 58 // shortlived subType << 59 << 60 // clang-format off << 61 anInstance = new G4ParticleDefinition( << 62 name, 1.86484*GeV, 1.605 << 63 0, -1, << 64 1, +1, << 65 "meson", 0, << 66 false, 0.4101e-3*ns, << 67 false, "D"); << 68 // clang-format on << 69 } << 70 theInstance = static_cast<G4AntiDMesonZero*> << 71 return theInstance; << 72 } 48 } 73 49 74 G4AntiDMesonZero* G4AntiDMesonZero::AntiDMeson << 50 // ...................................................................... 75 { << 51 // ... static member definitions ... 76 return Definition(); << 52 // ...................................................................... 77 } << 53 // >> 54 // Arguments for constructor are as follows >> 55 // name mass width charge >> 56 // 2*spin parity C-conjugation >> 57 // 2*Isospin 2*Isospin3 G-parity >> 58 // type lepton number baryon number PDG encoding >> 59 // stable lifetime decay table >> 60 >> 61 // In this version, charged pions are set to stable >> 62 G4AntiDMesonZero G4AntiDMesonZero::theAntiDMesonZero( >> 63 "anti_D0", 1.8645*GeV, 1.586e-9*MeV, 0., >> 64 0, -1, 0, >> 65 1, +1, 0, >> 66 "meson", 0, 0, -421, >> 67 false, 0.415e-3*ns, NULL >> 68 ); >> 69 >> 70 G4AntiDMesonZero* G4AntiDMesonZero::AntiDMesonZeroDefinition(){return &theAntiDMesonZero;} >> 71 G4AntiDMesonZero* G4AntiDMesonZero::AntiDMesonZero(){return &theAntiDMesonZero;} >> 72 // initialization for static cut values >> 73 G4double G4AntiDMesonZero::theAntiDMesonZeroLengthCut = -1.0; >> 74 G4double* G4AntiDMesonZero::theAntiDMesonZeroKineticEnergyCuts = NULL; 78 75 79 G4AntiDMesonZero* G4AntiDMesonZero::AntiDMeson << 76 void G4AntiDMesonZero::SetCuts(G4double aCut) 80 { 77 { 81 return Definition(); << 78 theCutInMaxInteractionLength = aCut; >> 79 >> 80 const G4MaterialTable* materialTable = G4Material::GetMaterialTable(); >> 81 // Create the vector of cuts in energy >> 82 // corresponding to the stopping range cut >> 83 if(theKineticEnergyCuts) delete [] theKineticEnergyCuts; >> 84 theKineticEnergyCuts = new G4double [materialTable->length()]; >> 85 >> 86 // Build range vector for every material, convert cut into energy-cut, >> 87 // fill theKineticEnergyCuts and delete the range vector >> 88 for (G4int J=0; J<materialTable->length(); J++) >> 89 { >> 90 G4Material* aMaterial = (*materialTable)[J]; >> 91 theKineticEnergyCuts[J] = LowestEnergy; >> 92 } >> 93 theAntiDMesonZeroLengthCut = theCutInMaxInteractionLength; >> 94 theAntiDMesonZeroKineticEnergyCuts = theKineticEnergyCuts; 82 } 95 } >> 96 >> 97 >> 98 >> 99 >> 100 >> 101 83 102