Title: 14 000 Researchers 12 000 Engineers, Technicians, Administrative
114 000 Researchers12 000 Engineers,
Technicians, Administrative
CNRS
IN2P3
INSU
SPM
SPI
STIC
SC
SDV
SHS
Universe
Nuclear Particle
Physics Maths
Bio.
Eng.
Computers
Chemistry
Humanities
Personnel 1931 2671 2833
1317 1409 3496
5748 3969 Budget 2,2 G
2CNRS
- Life Sciences
- Computer sciences
- Nanotechnologies
- Environment
- Interdisciplinarity
CNRS Priorities
3IN2P3
- Particle Physics
- Nuclear Physics
- Astroparticle Physics (interdisciplinary)
- Nuclear Energy (interdisciplinary)
4IN2P3/CNRS
Uni.
CNRS
CNRS
Uni.
5NUCLEAR PHYSICS
Probe the nature of the confinement of quarks
and gluons First priority to the achievement of
the construction of the ALICE detector
(LHC) Experimental program pursued at RHIC (STAR,
PHENIX) 50 FTE
Probe the structure and the dynamics of nuclei.
Nature of the nucleonic matter Limits of nuclear
stability. The heaviest bound elements Formation
of elements in the universe GANIL(Caen) with its
dedicated Radioactive Ion Beam Facility (
SPIRAL, SPIRAL II project) ORSAY Tandem
(ALTO) GSI, LEGNARO, JYVASKYLA, ISOLDE, VIVITRON
shut-down (december 2003) 115 FTE
Probe the quark-gluon structure of nucleons and
nuclei (Three groups - JLAB-CEBAF) 25 FTE
Theory 46 FTE
Nuclear wastes Innovative solutions for nuclear
energy 55 FTE
6NUCLEAR PHYSICS 290 permanent scientists 221
physicists (experimentalists), 46 theorists, 23
radiochemists
7Nature of the confinement of quarks and gluons
ALICE (CERN)
IN2P3 5 laboratories - Dimuon arm
- Internal tracking system (ITS) Investment
6.6 M
Déconfinement of elementary constituant of
nucleons and nuclei Equation of state of nuclear
matter - Quark-gluon plasma
2002-2006 Construction of the ALICE
detector 2002- 2007 RHIC Participation to STAR
(SSD project) (2 labs) and PHENIX (
electronics of dimuon arm)( 4 labs) 2007- ..
First experiments at the LHC
8Hadronic physics
- Understanding of the structure of nucleons and
light nuclei - Confinement of quarks et gluons in hadrons
- Strong interaction (QCD)
- Structure modifications of hadrons in nuclear
matter - TJNAF ( G0 , Deep VCS),
- GRAAL (ESRF), MAMI (PVA4, parity violation)
- HADESProperties of (r, w,f) mesons in nuclear
matter - Ongoing discussions on the future programs
G0
HADES
9Structure and the dynamics of nuclei. Nature of
the nucleonic matter
Some key facts New limits of stability (37Ne)
Discovery of 48Ni 2p radioactivity New
deformations Nuclear molecules New magicity New
detectors (EXOGAM, VAMOS)
GANIL
- Origin of nuclear binding - Limits of nuclear
stability - Heavy and super-heavy elements -
Formation of elements in the universe
(nucléosynthesis)
SPIRAL
RD for SPIRAL2 ALTO RD future detectors AGATA
- KEEP THE INTERNATIONAL COMPETITIVITY OF GANIL
- SPIRAL2 project
- - 2002-2006 experiments with SPIRAL I
- SPIRAL II , a priority stated by NuPECC 100M
(full cost) - cofinanced by Region (33) - - 2003-2004 design study and discussion with
- potential partners . Decision expected
mid-2004 - 2005-2008 Construction
- Complementarity with GSI On a longer term
EURISOL project
10SPIRAL II project
Driver SC Linac 40MeV, 5mA d et 14.5 AMeV, 1pmA
heavy-ions
gt1013 fissions/sec.
d-gtn 12C converter 238UCx target
- Multi-beams (up to 5)
- Into operation 2008
Post-acceleration in CIME Energy lt 6 AMeV
11 AGATA Advanced GAmma Tracking ArrayA new
generation gamma spectrometerHigh detection
sensitivity 100 to 1000 higher than EUROBALL
- Physics case
- Towards the spectroscopy of heavy and superheavy
nuclei - Nuclei very far from stability
- Exotic shapes of nuclei
- European collaboration
- Large RD collaboration
- 10 countries, 40 laboratories
- 400 researchers concerned
- Main potential sitesGSI and GANIL
- The detector
- 180 hexagonal coaxial detectors each segmented
in 36 (6x6) - 7000 channels
- Digital electronics
- 14 bits, 100 MHz ADCs
- low noise, large stability
- Large on line computing power
- pulse shape analysis
- gamma tracking
French contribution to the RD phase(CEA-IN2P3-GAN
IL) 1.25 M
12Frequency 2,99855 GHz repetition frequency 100
Hz Energy 50 MeV pulse duration 2 ns-2µs
Mean current10 µA Emittance 6 p mm.mrad _at_ 50
MeV
e-gun
50 MeV RF section
132Sn 4. 107 ions/µC 78Zn 2 105 ions/µC
UCx target
On line separator PARRNe2
Operation early 2005
13Design study (6ème PCRD) G.Fortuna
(Legnaro) Y.Blumenfeld (IPN Orsay) P.Butler
(Isolde) Coordinating Institution GANIL
EURISOL and GSI are complementary facilities
SPIRAL-II a first step to the high power
direction (300kW) LINAG, the SPIRAL-II
accelerator, could be part of the post
accelerator of EURISOL
14Pluridisciplinary Program PACE Back-end of
electronuclear cycle
Answer to the law passed in 1991 which defines
main research orientations on the management of
nuclear wastes (evaluation to be done in 2006)
o Separation and transmutation o Storage
in deep geological sites o Conditioning and
surface storage
IN2P3 focused on transmutation of nuclear wastes
and innovative systems for the future of
nuclear Energy - Experimental validation of
Accelerator Driven Systems (ADS) - Active
participation to RD European programs (MEGAPIE,
n-TOF, MUSE, PDS-XADS) - High intensity
accelerator developments (IPHI) - Deeply
involved in the preparation of an ambitious
project for the 6th european program aiming at
the future construction of a demonstrator (IP
EUROTRANS) - Study of innovative systems for
Nuclear Energy based on the Thorium cycle
Innovative scenarios, focused on the concept
of a molten salt reactor (one of the choice of
Generation IV) Collaboration with CEA, EDF,
FRAMATOME IN2P3 55 FTE
15International Collaborations
Bilateral agreements with Spain, Netherlands,
Tchec. Republic Poland, Romania, GSI Regular
meetings with INFN, EPSRC, DOE 6th FP
(EURONS), HP EUROTRANS, Molten salt reactors
Under discussion Cross-participation in GSI and
SPIRAL2 projects LEA Legnaro-GANIL UK_at_GANIL GDR
E with Poland (Radioactive beams) (GDRE on
nuclear astrophysics)