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Experimental Physics List QBBC V.Ivanchenko CERN, EMSU 10 th Geant4 Workshop, 9-14 October, Lisbon, Portugal.

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Presentation on theme: "Experimental Physics List QBBC V.Ivanchenko CERN, EMSU 10 th Geant4 Workshop, 9-14 October, Lisbon, Portugal."— Presentation transcript:

1 Experimental Physics List QBBC V.Ivanchenko CERN, EMSU 10 th Geant4 Workshop, 9-14 October, Lisbon, Portugal

2 QBBC V.Ivanchenko2 Motivation Shower shape problem requires experimental Physics List for exercises, which do not effect LHEP, QGSP… Shower shape problem requires experimental Physics List for exercises, which do not effect LHEP, QGSP… An attempt to create Physics Lists free of LHEP components An attempt to create Physics Lists free of LHEP components LHEP is a part of all 20 PhysicsLists LHEP is a part of all 20 PhysicsLists Exercise different ways of configuration Exercise different ways of configuration Exercise new models Exercise new models

3 QBBC V.Ivanchenko3 QBBC Default QGSC for high energy: p, n, π ± QGSC for high energy: p, n, π ± FTFC for K ±, pbar, nbar FTFC for K ±, pbar, nbar LHEP for the rest LHEP for the rest Binary for p, n Binary for p, n Bertini for π ±, K ±, Λ, Σ Bertini for π ±, K ±, Λ, Σ CHIPS for pbar, nbar, … CHIPS for pbar, nbar, …

4 QBBC V.Ivanchenko4 QBBC, verbose =1 Hadronic Processes for anti_neutron Hadronic Processes for anti_neutron hElastic Models: elastic Emin(GeV)= 0 Emax(GeV)= hElastic Models: elastic Emin(GeV)= 0 Emax(GeV)= hInelastic Models: FTF Emin(GeV)= 8 Emax(GeV)= CHIPS Emin(GeV)= 0 Emax(GeV)= 10 hInelastic Models: FTF Emin(GeV)= 8 Emax(GeV)= CHIPS Emin(GeV)= 0 Emax(GeV)= 10 Hadronic Processes for anti_proton Hadronic Processes for anti_proton hElastic Models: elastic Emin(GeV)= 0 Emax(GeV)= hInelastic Models: FTF Emin(GeV)= 8 Emax(GeV)= CHIPS Emin(GeV)= 0 Emax(GeV)= 10 hElastic Models: elastic Emin(GeV)= 0 Emax(GeV)= hInelastic Models: FTF Emin(GeV)= 8 Emax(GeV)= CHIPS Emin(GeV)= 0 Emax(GeV)= 10 Hadronic Processes for kaon+ hElastic Models: elastic Emin(GeV)= 0 Emax(GeV)= hInelastic Models: QGS Emin(GeV)= 8 Emax(GeV)= Bertini Emin(GeV)= 0 Emax(GeV)= 10 Hadronic Processes for kaon+ hElastic Models: elastic Emin(GeV)= 0 Emax(GeV)= hInelastic Models: QGS Emin(GeV)= 8 Emax(GeV)= Bertini Emin(GeV)= 0 Emax(GeV)= 10 Hadronic Processes for kaon- hElastic Models: elastic Emin(GeV)= 0 Emax(GeV)= hInelastic Models: QGS Emin(GeV)= 8 Emax(GeV)= Bertini Emin(GeV)= 0 Emax(GeV)= 10 Hadronic Processes for kaon- hElastic Models: elastic Emin(GeV)= 0 Emax(GeV)= hInelastic Models: QGS Emin(GeV)= 8 Emax(GeV)= Bertini Emin(GeV)= 0 Emax(GeV)= 10 Hadronic Processes for lambda hElastic Models: elastic Emin(GeV)= 0 Emax(GeV)= hInelastic Models: FTF Emin(GeV)= 8 Emax(GeV)= Bertini Emin(GeV)= 0 Emax(GeV)= 10 Hadronic Processes for lambda hElastic Models: elastic Emin(GeV)= 0 Emax(GeV)= hInelastic Models: FTF Emin(GeV)= 8 Emax(GeV)= Bertini Emin(GeV)= 0 Emax(GeV)= 10 Hadronic Processes for neutron hElastic Models: elastic Emin(GeV)= 0 Emax(GeV)= hInelastic Models: QGS Emin(GeV)= 8 Emax(GeV)= Binary Emin(GeV)= 0 Emax(GeV)= 10 nCapture Models: LCapture Emin(GeV)= 0 Emax(GeV)= 10 nFission Models: LFission Emin(GeV)= 0 Emax(GeV)= 10 Hadronic Processes for neutron hElastic Models: elastic Emin(GeV)= 0 Emax(GeV)= hInelastic Models: QGS Emin(GeV)= 8 Emax(GeV)= Binary Emin(GeV)= 0 Emax(GeV)= 10 nCapture Models: LCapture Emin(GeV)= 0 Emax(GeV)= 10 nFission Models: LFission Emin(GeV)= 0 Emax(GeV)= 10 Hadronic Processes for pi+ Hadronic Processes for pi+ hElastic Models: elastic Emin(GeV)= 0 Emax(GeV)= hElastic Models: elastic Emin(GeV)= 0 Emax(GeV)=

5 QBBC V.Ivanchenko5 QBBC Options Several predefined configuration: Several predefined configuration: QBBC, QBEC, QBBC_HP, QBEC_HP, QGSP, QGSP_BERT QBBC, QBEC, QBBC_HP, QBEC_HP, QGSP, QGSP_BERT Any combination can be configured potentially Any combination can be configured potentially

6 QBBC V.Ivanchenko6 Verbosity =1 for QBBC Gg Gg /testhadr/Physics QBBC PhysicsList::AddPhysicsList: Hadronic Processes for anti_neutron hElastic Models: elastic Emin(GeV)= 0 Emax(GeV)= Hadronic Processes for anti_proton hElastic Models: elastic Emin(GeV)= 0 Emax(GeV)= Hadronic Processes for kaon+ hElastic Models: elastic Emin(GeV)= 0 Emax(GeV)= Hadronic Processes for kaon- hElastic Models: elastic Emin(GeV)= 0 Emax(GeV)= Hadronic Processes for lambda hElastic Models: elastic Emin(GeV)= 0 Emax(GeV)= Hadronic Processes for neutron hElastic Models: elastic Emin(GeV)= 0 Emax(GeV)= Hadronic Processes for pi+ hElastic Models: elastic Emin(GeV)= 0 Emax(GeV)= Hadronic Processes for pi- hElastic Models: elastic Emin(GeV)= 0 Emax(GeV)= Hadronic Processes for proton hElastic Models: elastic Emin(GeV)= 0 Emax(GeV)=

7 QBBC V.Ivanchenko7 Hadronic Benchmark #5 (D.Wright) LHEP is equal to QGSP LHEP is equal to QGSP QBBC is very off QBBC is very off 1 st interaction likely is very important 1 st interaction likely is very important QGS angular distribution is problematic QGS angular distribution is problematic HARP data! HARP data!

8 QBBC V.Ivanchenko8 Personal Current Point of View Keep Physics Lists as it is for December Keep Physics Lists as it is for December Only minor improvement: merge 20 zero size libraries into 1 Only minor improvement: merge 20 zero size libraries into 1 For next year plan inter-category project For next year plan inter-category project Formulate and agree on requirements Formulate and agree on requirements Do design using Rose Do design using Rose Implementation only in second part of the next year not earlier Implementation only in second part of the next year not earlier


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