// // ******************************************************************** // * License and Disclaimer * // * * // * The Geant4 software is copyright of the Copyright Holders of * // * the Geant4 Collaboration. It is provided under the terms and * // * conditions of the Geant4 Software License, included in the file * // * LICENSE and available at http://cern.ch/geant4/license . These * // * include a list of copyright holders. * // * * // * Neither the authors of this software system, nor their employing * // * institutes,nor the agencies providing financial support for this * // * work make any representation or warranty, express or implied, * // * regarding this software system or assume any liability for its * // * use. Please see the license in the file LICENSE and URL above * // * for the full disclaimer and the limitation of liability. * // * * // * This code implementation is the result of the scientific and * // * technical work of the GEANT4 collaboration. * // * By using, copying, modifying or distributing the software (or * // * any work based on the software) you agree to acknowledge its * // * use in resulting scientific publications, and indicate your * // * acceptance of all terms of the Geant4 Software license. * // ******************************************************************** // // // $Id$ // // ---------------- G4QPDGCode ---------------- // by Mikhail Kossov, Sept 1999. // class header for Hadron definition in CHIPS Model // ------------------------------------------------------------ // Short description: The PDG Code is made on the basis of the Quark // Content (G4QuarkContent) of the hadronic state (including nuclear // fragments). The PDG code of the ground state (e.g. pi, N, etc.) is // calculated. It includes a complicated algortithm of the G.S. mass // calculation for nuclear fragments (now it is synchronised with the // G4 nuclear massess). // ------------------------------------------------------------------- #ifndef G4QPDGCode_h #define G4QPDGCode_h 1 #include #include "globals.hh" // Geant4 particles for consistency of masses only // Leptons #include "G4MuonPlus.hh" #include "G4MuonMinus.hh" #include "G4TauMinus.hh" #include "G4TauPlus.hh" #include "G4Electron.hh" #include "G4Positron.hh" #include "G4NeutrinoTau.hh" #include "G4AntiNeutrinoTau.hh" #include "G4NeutrinoMu.hh" #include "G4AntiNeutrinoMu.hh" #include "G4NeutrinoE.hh" #include "G4AntiNeutrinoE.hh" // Mesons #include "G4PionPlus.hh" #include "G4PionMinus.hh" #include "G4PionZero.hh" #include "G4Eta.hh" #include "G4EtaPrime.hh" #include "G4KaonPlus.hh" #include "G4KaonMinus.hh" #include "G4KaonZero.hh" #include "G4AntiKaonZero.hh" #include "G4KaonZeroLong.hh" #include "G4KaonZeroShort.hh" #include "G4DMesonPlus.hh" #include "G4DMesonMinus.hh" #include "G4DMesonZero.hh" #include "G4AntiDMesonZero.hh" #include "G4DsMesonPlus.hh" #include "G4DsMesonMinus.hh" #include "G4JPsi.hh" #include "G4BMesonPlus.hh" #include "G4BMesonMinus.hh" #include "G4BMesonZero.hh" #include "G4AntiBMesonZero.hh" #include "G4BsMesonZero.hh" #include "G4AntiBsMesonZero.hh" // Barions #include "G4Proton.hh" #include "G4AntiProton.hh" #include "G4Neutron.hh" #include "G4AntiNeutron.hh" #include "G4Lambda.hh" #include "G4SigmaPlus.hh" #include "G4SigmaZero.hh" #include "G4SigmaMinus.hh" #include "G4XiMinus.hh" #include "G4XiZero.hh" #include "G4OmegaMinus.hh" #include "G4AntiLambda.hh" #include "G4AntiSigmaPlus.hh" #include "G4AntiSigmaZero.hh" #include "G4AntiSigmaMinus.hh" #include "G4AntiXiMinus.hh" #include "G4AntiXiZero.hh" #include "G4AntiOmegaMinus.hh" #include "G4LambdacPlus.hh" #include "G4SigmacPlusPlus.hh" #include "G4SigmacPlus.hh" #include "G4SigmacZero.hh" #include "G4XicPlus.hh" #include "G4XicZero.hh" #include "G4OmegacZero.hh" #include "G4AntiLambdacPlus.hh" #include "G4AntiSigmacPlusPlus.hh" #include "G4AntiSigmacPlus.hh" #include "G4AntiSigmacZero.hh" #include "G4AntiXicPlus.hh" #include "G4AntiXicZero.hh" #include "G4AntiOmegacZero.hh" // Nuclei #include "G4Alpha.hh" #include "G4Deuteron.hh" #include "G4He3.hh" #include "G4Triton.hh" //ions #include "G4GenericIon.hh" #include "G4NucleiProperties.hh" // --- End of consistency headers --- #include "G4QContent.hh" class G4QPDGCode { public: // Constructors G4QPDGCode(G4int PDGCode = 0); // Construction by PDGCode G4QPDGCode(G4bool f, G4int QCode); // Construction by QCode, f-verb G4QPDGCode(G4QContent QCont); // Construction by Quark Content G4QPDGCode(const G4QPDGCode& rhs); // Copy Constructor by value G4QPDGCode(G4QPDGCode* rhs); // Copy Constructor by pointer ~G4QPDGCode(); // Public Destructor // Operators const G4QPDGCode& operator=(const G4QPDGCode& rhs); G4bool operator==(const G4QPDGCode& rhs) const; G4bool operator==(const G4int& rhs) const; G4bool operator!=(const G4QPDGCode& rhs) const; G4bool operator!=(const G4int& rhs) const; G4QPDGCode operator+=(const G4int& rhs); G4QPDGCode operator+=(const G4QPDGCode& rhs); G4QPDGCode operator-=(const G4int& rhs); G4QPDGCode operator-=(const G4QPDGCode& rhs); G4QPDGCode operator*=(const G4int& rhs); G4QPDGCode operator/=(const G4int& rhs); // Selectors G4int GetNQHadr(); // Return # of predefined hadrons G4double GetMass(); // GS Mass for the QHadron G4double GetMass2(); // Squared GS Mass for the QHadron G4double GetWidth(); // Width for the QHadron G4double GetNuclMass(G4int Z, G4int N, G4int S); // Wrapper forNuclearMassCalculation G4double GetNuclMass(G4int PDGCode); // Wrapper forNuclearMassCalculation G4QContent GetQuarkContent() const; // Get QC for the particle G4int GetBaryNum() const; // Get Baryon Number of the Hadron G4int GetSpin() const; // Returns 2s+1 for hadrons, 1 for A G4int GetCharge() const; // Get Charge of the Hadron G4int GetPDGCode() const; // Get PDG code of the Hadron G4int GetQCode() const; // Get Q code of the Hadron G4QContent GetExQContent(G4int i, G4int o) const; // Get Q Content for Quark Exchange G4int GetRelCrossIndex(G4int i, G4int o) const; // Relative Cross Index for q_i->q_o G4int GetNumOfComb(G4int i, G4int o) const; // Get #ofCombinations for q_i->q_o G4int GetTotNumOfComb(G4int i) const; // Get total#ofCombinations for q_i // Modifiers void SetPDGCode(G4int newPDGCode); // Set PDG code of the Hadron void InitByQCont(G4QContent QCont); // Init ExistingQPDG by QuarkContent void InitByQCode(G4int QCode); // Init ExistingQPDG by Q Code // General G4bool TestRealNeutral(); void NegPDGCode(); void ConvertPDGToZNS(G4int PDG, G4int& z, G4int& n, G4int& s); std::pair MakeTwoBaryons(G4int L1, G4int L2, G4int R1, G4int R2); private: // Encapsulated functions G4bool TestRealNeutral(const G4int& PDGCode); G4int MakeQCode(const G4int& PDGCode); // Make Q Code, using PDG Code G4int MakePDGCode(const G4int& QCode); // Make PDG Code, using Q Code G4double CalculateNuclMass(G4int Z, G4int N, G4int S); // Nuclear Mass Calculation G4double QHaM(G4int nQ); // Definition of hadronic masses in Q-order private: // Static parameter //static const G4int nQHM=90; static const G4int nQHM=53; // Reduced CHIPS // the Body G4int thePDGCode; G4int theQCode; }; // Not member operators std::ostream& operator<<(std::ostream& lhs, G4QPDGCode& rhs); std::ostream& operator<<(std::ostream& lhs, const G4QPDGCode& rhs); G4int operator+(const G4QPDGCode& lhs, const G4QPDGCode& rhs); G4int operator+(const G4QPDGCode& lhs, const G4int& rhs); G4int operator+(const G4int& lhs, const G4QPDGCode& rhs); G4int operator-(const G4QPDGCode& lhs, const G4QPDGCode& rhs); G4int operator-(const G4QPDGCode& lhs, const G4int& rhs); G4int operator-(const G4int& lhs, const G4QPDGCode& rhs); G4int operator*(const G4QPDGCode& lhs, const G4QPDGCode& rhs); G4int operator*(const G4QPDGCode& lhs, const G4int& rhs); G4int operator*(const G4int& lhs, const G4QPDGCode& rhs); G4int operator/(const G4QPDGCode& lhs, const G4QPDGCode& rhs); G4int operator/(const G4QPDGCode& lhs, const G4int& rhs); G4int operator/(const G4int& lhs, const G4QPDGCode& rhs); G4int operator%(const G4QPDGCode& lhs, const G4int& rhs); // Not member functions //---------------------------------------------------------------------------------------- inline G4bool G4QPDGCode::operator==(const G4QPDGCode& rhs) const {return this==&rhs;} inline G4bool G4QPDGCode::operator==(const G4int& rhs) const {return thePDGCode==rhs;} inline G4bool G4QPDGCode::operator!=(const G4QPDGCode& rhs) const {return this!=&rhs;} inline G4bool G4QPDGCode::operator!=(const G4int& rhs) const {return thePDGCode!=rhs;} inline G4int G4QPDGCode::GetNQHadr() {return nQHM;} // Return # of predefined hadrons inline G4QPDGCode G4QPDGCode::operator+=(const G4QPDGCode& rhs) { thePDGCode+=rhs.GetPDGCode(); if(!thePDGCode) theQCode = -2; else theQCode = MakeQCode(thePDGCode); return *this; } inline G4QPDGCode G4QPDGCode::operator+=(const G4int& rhs) { thePDGCode+=rhs; if(!thePDGCode) theQCode = -2; else theQCode = MakeQCode(thePDGCode); return *this; } inline G4QPDGCode G4QPDGCode::operator-=(const G4QPDGCode& rhs) { thePDGCode-=rhs.GetPDGCode(); if(!thePDGCode) theQCode = -2; else theQCode = MakeQCode(thePDGCode); return *this; } inline G4QPDGCode G4QPDGCode::operator-=(const G4int& rhs) { thePDGCode-=rhs; if(!thePDGCode) theQCode = -2; else theQCode = MakeQCode(thePDGCode); return *this; } inline G4QPDGCode G4QPDGCode::operator*=(const G4int& rhs) { thePDGCode*=rhs; if(!thePDGCode) theQCode = -2; else theQCode = MakeQCode(thePDGCode); return *this; } inline G4QPDGCode G4QPDGCode::operator/=(const G4int& rhs) { thePDGCode/=rhs; if(!thePDGCode) theQCode = -2; else theQCode = MakeQCode(thePDGCode); return *this; } inline G4double G4QPDGCode::GetMass2() {G4double mass=GetMass(); return mass*mass;} inline G4double G4QPDGCode::GetNuclMass(G4int PDG) { if(PDG>80000000) { G4int szn=PDG-90000000; G4int ds=0; G4int dz=0; G4int dn=0; if(szn<-100000) { G4int ns_value=(-szn)/1000000+1; szn+=ns_value*1000000; ds+=ns_value; } else if(szn<-100) { G4int nz=(-szn)/1000+1; szn+=nz*1000; dz+=nz; } else if(szn<0) { G4int nn=-szn; szn=0; dn+=nn; } G4int sz =szn/1000; G4int n =szn%1000; if(n>700) { n-=1000; dz--; } G4int z =sz%1000-dz; if(z>700) { z-=1000; ds--; } G4int s_value =sz/1000-ds; return GetNuclMass(z,n,s_value); } return 0.; } inline G4int G4QPDGCode::GetPDGCode() const {return thePDGCode;} inline G4int G4QPDGCode::GetQCode() const {return theQCode;} inline G4int G4QPDGCode::GetCharge() const {return GetQuarkContent().GetCharge();} inline G4int G4QPDGCode::GetBaryNum() const {return GetQuarkContent().GetBaryonNumber();} inline G4int G4QPDGCode::GetSpin() const { if(thePDGCode<80000000) return thePDGCode%10; else if(GetQuarkContent().GetTot()%2) return 3; // @@ Take into account higher resonances else return 1; } inline void G4QPDGCode::NegPDGCode() {thePDGCode=-thePDGCode;} inline G4bool G4QPDGCode::TestRealNeutral(){return TestRealNeutral(thePDGCode);} // Redefinition of the PDG instance inline void G4QPDGCode::SetPDGCode(G4int newPDGCode) { thePDGCode=newPDGCode; if(!thePDGCode) theQCode = -2; else theQCode = MakeQCode(newPDGCode); } // Init existing QPDG by Quark Content inline void G4QPDGCode::InitByQCont(G4QContent QCont) { thePDGCode = QCont.GetSPDGCode(); if(!thePDGCode) theQCode = -2; else theQCode = MakeQCode(thePDGCode); } // Init existing QPDG by Quark Content inline void G4QPDGCode::InitByQCode(G4int QCode) { theQCode = QCode; thePDGCode = MakePDGCode(QCode); } #endif