SPhN today Our goal: to study all states of strongly interacting matter, partonic, hadronic and nuclear, & discover new ones Quark-gluon plasma RHIC/PHENIX.

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Presentation transcript:

SPhN today Our goal: to study all states of strongly interacting matter, partonic, hadronic and nuclear, & discover new ones Quark-gluon plasma RHIC/PHENIX & CERN/ALICE 6 staff physicists Nucleon structure CERN/COMPASS & JLab/CLAS & Theory 1 1 Nuclear structure from SPIRAL to SPIRAL2, + the whole palette of radioactive beams & Theory 12 Interfaces between fundamental physics and applications spallation, neutron-induced reactions, nuclear energy, fission, non-proliferation, nuclear astrophysics 11 (+ 9 post-docs, 12 students, 2 scientific advisors, 2 direction, 2 administration, 2 technicians)

First generation of dedicated DVCS experiments in progress. A clear perspective: GeV. New theoretical concepts, innovative technics Very rich harvest at COMPASS → ∆G, polarized parton distributions (L&T), spectroscopy… Proposition to SPSC spring 2010, including GPD program. Theory: - first lattice QCD results (ETMC), - heavy baryon phenomenology - baryon resonances. Nucleon structure

Institute for Research into the Fundamental laws of the Universe SACM SPPSApSPhN SIIEVSISSediSenac Detectors Electronics Computing Engineering Slow control Total staff ~ 628

Micromegas at Irfu Sedi: R&D, Cern/Cast, Sphere,… SPhN: Compass, CLAS12, Cern/n_TOF, Ganil/NFS/TPC, Ganil/BTD, GSI/Minos SPP: T2K, sLHC/Atlas/Mamma, ILC/TPC

CLAS12 Central Detector Specifications driven by measurements of deep exclusive reactions Detection of large angle/low energy recoil protons, e.g. in PR approved DVCS on proton A LU, A UL & σ Detection of large angle/low energy recoil neutrons, e.g. in LOI DVCS on neutron strongly encouraged

CLAS12 Central Detector First suggestion of a European enterprise (together with Korea, Russia and JLab) by Volker Central tracker: - fast cylindrical Micromegas becoming a real option - optimal resolutions with mixed Si/MM tracker - important for p-DVCS to reduce material thicknesses Space available between CTOF and solenoid - unique opportunity to measure n-DVCS CTOF - is the design frozen? Common headache for all: large solenoidal field

Objectives for this meeting (1) - Update on all subsystems - Central tracker: (define the way to) optimize the mixed Si/MM configuration MM: any further proof of feasability required? Electronics - Forward vertex tracker: any issues ? - Neutron detector Brainstorming on conceptual design Define further R&D and/or simulations - CTOF Optimal configuration? Is a mixed system CTOF/neutron counter an option? If not, will Europe be involved?

Objectives for this meeting (2) - Integration (exchange on design, organization, coordination,...) - MoU’s and other formal aspects - Agenda for all actions discussed during the course of the meeting