// // ******************************************************************** // * 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: G4ExcitedNucleonConstructor.hh,v 1.6 2006/06/29 19:26:40 gunter Exp $ // GEANT4 tag $Name: HEAD $ // // // -------------------------------------------------------------- // GEANT 4 class implementation file // // History: first implementation, based on object model of // 10 oct 1998 H.Kurashige // --------------------------------------------------------------- #ifndef G4ExcitedNucleonConstructor_h #define G4ExcitedNucleonConstructor_h 1 #include "globals.hh" #include "G4ios.hh" #include "G4ExcitedBaryonConstructor.hh" class G4ExcitedNucleonConstructor: public G4ExcitedBaryonConstructor { //This class is a utility class for construction //short lived particles public: G4ExcitedNucleonConstructor(); virtual ~G4ExcitedNucleonConstructor(); protected: virtual G4int GetEncoding(G4int iIsoSpin3, G4int idxState); protected: virtual G4bool Exist( G4int ){return true;} virtual G4int GetQuarkContents(G4int, G4int); virtual G4String GetName(G4int iIso3, G4int iState); virtual G4String GetMultipletName(G4int iState); virtual G4double GetMass(G4int iState); virtual G4double GetWidth(G4int iState); virtual G4int GetiSpin(G4int iState); virtual G4int GetiParity(G4int iState); virtual G4int GetEncodingOffset(G4int iState); virtual G4DecayTable* CreateDecayTable(const G4String& name, G4int iIso3, G4int iState, G4bool fAnti = false); private: G4DecayTable* AddNGammaMode( G4DecayTable* table, const G4String& name, G4double br, G4int iIso3, G4bool fAnti); G4DecayTable* AddNPiMode( G4DecayTable* table, const G4String& name, G4double br, G4int iIso3, G4bool fAnti); G4DecayTable* AddNEtaMode( G4DecayTable* table, const G4String& name, G4double br, G4int iIso3, G4bool fAnti); G4DecayTable* AddNOmegaMode( G4DecayTable* table, const G4String& name, G4double br, G4int iIso3, G4bool fAnti); G4DecayTable* AddNRhoMode( G4DecayTable* table, const G4String& name, G4double br, G4int iIso3, G4bool fAnti); G4DecayTable* AddN2PiMode( G4DecayTable* table, const G4String& name, G4double br, G4int iIso3, G4bool fAnti); G4DecayTable* AddDeltaPiMode( G4DecayTable* table, const G4String& name, G4double br, G4int iIso3, G4bool fAnti); G4DecayTable* AddNStarPiMode( G4DecayTable* table, const G4String& name, G4double br, G4int iIso3, G4bool fAnti); G4DecayTable* AddLambdaKMode( G4DecayTable* table, const G4String& name, G4double br, G4int iIso3, G4bool fAnti); public: enum { NStates = 15 }; private: enum { NucleonIsoSpin = 1 }; private: static const char* name[ NStates ]; static const G4double mass[ NStates ]; static const G4double width[ NStates ]; static const G4int iSpin[ NStates ]; static const G4int iParity[ NStates ]; static const G4int encodingOffset[ NStates ]; public: enum { NumberOfDecayModes = 9 }; private: enum { NGamma=0, NPi=1, NEta=2, NOmega=3, NRho=4, N2Pi=5, DeltaPi=6, NStarPi=7, LambdaK = 8 }; private: static const G4double bRatio[ NStates ][ NumberOfDecayModes]; }; inline G4double G4ExcitedNucleonConstructor::GetMass(G4int iState) { return mass[iState]; } inline G4double G4ExcitedNucleonConstructor::GetWidth(G4int iState) { return width[iState]; } inline G4int G4ExcitedNucleonConstructor::GetiSpin(G4int iState) { return iSpin[iState]; } inline G4int G4ExcitedNucleonConstructor::GetiParity(G4int iState) { return iParity[iState]; } inline G4int G4ExcitedNucleonConstructor::GetEncodingOffset(G4int iState) { return encodingOffset[iState]; } inline G4int G4ExcitedNucleonConstructor::GetQuarkContents(G4int iQ, G4int iIso3) { // Quark contents // iIso3 = -1 : udd // iIso3 = +1 : uud G4int quark=0; if ( iQ == 0 ){ // u-quark quark = 2; } else if ( iQ == 2 ){ // d-quark quark = 1; } else { if ( iIso3 == -1 ){ // d-quark quark = 1; } else { // u-quark quark = 2; } } return quark; } inline G4String G4ExcitedNucleonConstructor::GetMultipletName(G4int iState) { return name[iState]; } inline G4String G4ExcitedNucleonConstructor::GetName(G4int iIso3, G4int iState) { G4String particle = name[iState]; if ( iIso3 == -1 ){ particle += "0"; } else { particle += "+"; } return particle; } #endif