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The DESIR facility at SPIRAL2. SPIRAL2 at GANIL SPIRAL2 Phase 1 and Phase 2 New equipment at SPIRAL2 DESIR facility DESIR physics programme Safety around DESIR. Bertram Blank CEN Bordeaux-Gradignan. CEA Saclay, April 24, 2009. Existing GANIL facility. Phase 2 2013/4. DESIR.
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The DESIR facility at SPIRAL2 • SPIRAL2 at GANIL • SPIRAL2 Phase 1 and Phase 2 • New equipment at SPIRAL2 • DESIR facility • DESIR physics programme • Safety around DESIR Bertram Blank CEN Bordeaux-Gradignan CEA Saclay, April 24, 2009
Existing GANIL facility Phase 22013/4 DESIR RIB PRODUCTION S3NFS Accelerator Phase 12012
Neutrons for science Atomic & solid state physics Radiobiology & Isotope production Equation of State Role of Isospin Scientific case of SPIRAL2 Heavy and Super Heavy Elements ISOSPIN DEGREES OF FREEDOM IN NUCLEAR FORCES Position of drip-lines N=Z rp-process r-process path Shell structure far from stability Spins&Shapes Spins & Shapes Haloes & Structures in the Continuum www.ganil.fr/research/developments/spiral2/
Gamma Array Particle Array New detectors at SPIRAL2 DESIR S3 NFS AGATA PARIS ACTAR GASPARD FAZIA EXOGAM 2 2006-2007: 19 Letters of Intent, 600 physicists from 34 countries 2008-2009: TDR for big instrumentation at SPIRAL2
DESIR at GANIL GANIL – SPIRAL1 (S1) DESIR Production building SPIRAL2 (S2) S3 Low-energy beams from: S1, S2, S3
S1: Low-energy beams from SPIRAL1 Projectile or target fragmentation at 95 MeV/A main interest: very neutron- and proton-rich light nuclei 1+ n+
Converter n 2H UCx IS n 2H Target IS 2H UCx IS HI Target IS S2: Low-energy beams from SPRIAL2 • Fission, fusion • evaporation, DIC • main interest: • fission products • medium-mass • proton-rich nuclei
S3: Low-energy beams from S3 • Fusion-evaporation • reactions at Coulomb • Barrier, DIC • main interest: • very heavy nuclei • N=Z nuclei • very short-lived • isotopes • refractory elements Gas catcher LISOL
General purpose LN2 Control room Gas & waste storage IS TAS off-line source 1 Collinear Laser spectroscopy b-NMR off-line source 2 Penning trap + Decay setup MLL trap Double MOT RFQ bun- cher Paul trap DAQ room General purpose Neutron ditch Electronics Desk Access Laser room (mezzanine) DESIR hall Identification station with tape LUMIERE BESTIOL SAS Kitchen + WC (on top of CR) Beam from Level -1 Meeting room (on top of DAQ) Crane access to basement 5 m
Assembly Room 3 Gray Room 2 Electri- city Stor- age 1 Stor- age 2 Gray Room 1 free Assembly Room 1 Assembly Room 2 Control Racks Interfaces HV supplies Crane access to basement 5 m Neutron ditch DESIR hall: level -1 Work shop Radio lab storage Beam from Production building, S3 and SPIRAL1 X Supply Limits of DESIR hall Identification and radioprotection measurements
DESIR work packages • RFQ SHIRAC: Gilles Ban • HRS: Bertram Blank • DESIR building: Franck Delalee • General purpose ion buncher • GPIB + stable ion sources: Pierre Delahaye • Identification station: Philippe Dessagne • Beam transport lines: Francois Le Blanc • Safety and security: Jean-Charles Thomas • Command / Control, diagnostics: Stéphane Grévy
The DESIR Technical Design Report • submitted on December 19, 2008 • presented to SPIRAL2 SAC on January 29, 2009 • strongly supported by SPIRAL2 SAC…. • about 100 pages of technical description of DESIR facility • and its equipment • co-signed by 111 physicists and engineers of 15 countries • contains a general description of buildings and interfaces • description of major installations like traps, spectroscopy • setups etc • report available on DESIR web page (www.cenbg.in2p3.fr/desir)
LUMIERE Laser Utilisation for Measurement and Ionization of Exotic Radioactive Elements F. Le Blanc ,Orsay G. Neyens, Leuven P. Campbell, Manchester • Collinear Laser spectroscopy: • - spins • - magnetic moments • - quadrupole moments • - change of charge radii • b-NMR spectroscopy: • - nuclear gyromagnetic factor • - quadrupole moment • N=50, N=64, N=82, … • Microwave double resonance • in a Paul trap: • - hyperfine anomaly and higher order momenta • (octupole and hexadecapole deformation) • Eu, Cs, Au, Rn, Fr, Ra, Am ….
BESTIOL BEta decay STudies at the SPIRAL2 IsOL facility • Decay studies with halo nuclei • Clustering studies in light nuclei • b-delayed charged-particle emission: e.g. proton-proton correlation • Super-allowed b decays and the standard model of electro-weak interaction • Deformation and Gamow-Teller distribution • 2n correlations, Pn and nuclear structure (r-process) • ... M.J.G. Borge, Madrid b-g setup, B. Blank (Bordeaux) TETRA, Y. Penionzhkevich (Dubna) TAS, J.L. Tain (Valencia)
MLLTRAP • High-accuracy mass measurements • - unitarity of CKM matrix (Vud): 50Mn, 54Co with DM/M~10-10 • - transuranium isotopes (beams from S3): M(Z>102) • In-trap spectroscopy: • - conversion electron and a spectroscopy: shape coexistence • Trap-assisted spectroscopy • - b decay studies of isomerically pure radioactive species P. Thirolf , Munich Set-up being installed at MLL/Garching
KVI atomic trapping facility • New limits on scalar and tensor contributions in the weak interaction • New limits on time-reversal violation in beta decay • Systematic of atomic parity non-conservation in a long isotopic chain H. Wilschut, Groningen Experimental set-up at KVI
Operation of GANIL/SPIRAL1/SPIRAL2 Standard planning; one production cave DESIR: 29 weeks of RIB/year: 10 weeks of RIB from SPIRAL2, 4 weeks from S3, 15 weeks from SPIRAL1
SAFETY REQUIREMENTS DESIR building + beam lines to DESIR : green zones on and off operation -> controlled accesses -> activity confinement and monitoring (external exposure dose rate + inhalation risks) -> limited impact on the environment -> impact evaluation prior to experiments -> technical solutions to limit the risks
The Dose rate issue (DeD) • working area: DeD < 7.5 µSv/h < 2 mSv/year/worker • temporary working area (< 10 min): DeD < 100 µSv/h • RIB from S1: (108 pps 19Ne) -> definitely an issue but: short lifetime and temporary shielding can be mounted (30 cm air + 30 cm concrete) • RIB from S2: can be an issue if long-lived and produced at high yields + contaminants • RIB from S3: I < 106 pps, N~Z nuclei : can be an issue depending on the selectivity
Accidental activity release (inhalation risks) • For any RIB presenting inhalation risks: induced LPCA in Bq/m3 associated with a dose limitation (20 mSv for 2000 h and 1.2 m3/h inhalation) • DESIR safety requirement : released activity < 1 LPCA (at any time -> cooling to be considered) Example of 131I: T1/2 = 8.02 d LPCA = 400 Bq/m3 assuming a 100 % release at room temperature -> Considering a release volume of 10*10*5 m3= 500 m3, A(131I)MAX = 2.E+05 Bq i.e.A(131I)MAX =2.4E+06 pps for 1 day of implantation
132Sn only In target yield (1014 f/s) 7.7 1011 to 7.9 1011 Beam intensity limitation ~105
Simulation of a laser spectroscopy experiment: 6 runs* 1 day on 132-137Sn, delivered as pure beams
V = 500 m3 No isotopic separation Beam IMAX (pps) for 1 LPCA 132Sn 5.E+04 133Sn 1.E+04 134Sn 1.E+04 135Sn 3.E+03 136Sn 5.E+03 137Sn 1.E+04 Simulation of a laser spectroscopy experiment: 6 runs * 1 day on 132-137Sn, without isotopic separation
Technical solutions • External dose rate exposure: local shielding + DeD monitoring • Activity confinement: vacuum + specific dismounting procedures • Limited impact on the environment: low depression + limited amount of activity < 100 MBq (activity inventory) • “On-line” beam monitoring before the DESIR building: dedicated DeD monitoring station + beam stopper
pepperpots • selectivity (ionization process + mass separation) -> both need to be controlled Beam intensity limitations
Next steps • DESIR safety report (including technical solutions) to be produced by the end of 2009 • Impact evaluation taking into account realistic ionization efficiencies, mass separation resolutions and release fractions -> what are the RIBs of interest?
SPIRAL2 Schedule Phase I Phase II
Next steps...... • RFQ: on-going tests, study of “nuclearisation”, study of final version of RFQ • HRS: detailed optical study of new ALPHA version, detailed mechanical study • beam lines: preliminary design, cost estimate, detailed design study • stable ion sources: definition, purchase • GPIB: study and construction • Identification station: preliminary design, detailed design, construction • DESIR building: like SPIRAL2 Phase 2 construction program…. • decision about construction at latest mid 2010 • Safety schemes • ……