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Current Status of the FAIR Project. Helmholtz Centre for Ion Research. G. Moritz, Cryogenic Expert meeting, GSI, September 19/20 2007 (courtesy of D. Krämer for the FAIR Design Team). The Pillars of the FAIR Complex. From existing GSI UNILAC & SIS18 & new proton linac. 300 Tm Stretcher
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Current Status of the FAIR Project Helmholtz Centre for Ion Research G. Moritz, Cryogenic Expert meeting, GSI, September 19/20 2007 (courtesy of D. Krämer for the FAIR Design Team)
The Pillars of the FAIR Complex From existing GSI UNILAC & SIS18 & new proton linac 300 Tm Stretcher Ring sc SIS300 100 Tm Synchotron sc SIS100 sc High Energy Storage Ring Compressed Barionic Matter experiment Rare isotope Production & separator sc Antiproton production Collector & Cooler Ring + Experiments: E-I collider Nuclear Physics Atomic Physics Plasma Physics Applied Physics HESR & PANDA nc or sc New Experimental Storage Ring NESR Accumulator Ring Deceleration
Technical Realization of FAIR SIS 100/300 SIS 18 UNILAC Radioactive Ion Production Target Existing facility: provides ion-beam source and injector for FAIR HESR Super FRS Anti-Proton Production Target CR 100 m FLAIR RESR NESR New future facility: provides ion and anti-matter beams of highest-intensity and up to high energies
The International Committee Structure(for XFEL & FAIR) • Baseline Technical Report • - accelerator TR's • - experiment proposals • - civil construction plans • (~ 3500 pages) • PAC & TAC Review Reports • Cost Book • Cost Review Reports • - accelerator & civil • construction (CORE-A) • - experiments (CORE-E) • Convention • Articles of Association • By-Laws • Final Act Document • Legal Framework Report (LFI) • Full Cost Structure Report (FCI) Austria China Finland France Germany Greece India Italy Poland Spain Sweden Russia Great Britain Romania ISC International Steering Committee Delegates from partner states STI Working Group Scientific + Technical Issues AFI Working Group Administrative + Funding Issues FAIR Project PAC QCD LFI Legal Framework Issus PAC NUSTAR PAC APPA FCI Full Cost Issues • Reviews • Cryogenics • Warm magnets • Cold magnets • Power Supplies • Beam Instrumentation • p-Linac TAC CORE Cost Review Groups Observes:
Preparation of CDR 700 scientists Accelerator R & D coordinated by GSI Proto-Collaborations international community Preparation of FBTR 2400 scientists Civil Construction Planning / Regulatory Processes / UVS ISC STI PAC's / TAC / miniTACs CORE-A / CORE-E AFI (LFI / FCI ) 2000 2002 2004 2006 Wissenschaftsrat-Evaluation International Steering Committee BMBF Press Release FBTR Submission CDR Submission International MoU Workshops / White Papers: exploration of science opportunities WR – ESAC – ETAC – EMAC -- EAC
Project Costs Scrutinized by CORE, TAC, STI … Accelerator investment costs 533 M€ Civil construction costs 289 M€ Baseline experimental facilities ( incl Super-FRS ) 180 M€ Investment budget1002 M€ Manpower (2400 person-years) 185 M€ Total Construction Costs 1187 M€ Germany committed part of funding 25% of funds have to come from non-German partners Commissioning Costs 28 M€ Operation Costs up to 20251485 M€ Sum 2700 M€
FAIR Work Packages 94 WPs defined, following WBS, FBTR and Cost Book schematics 13 subprojects 15 technical systems in-kind interest to take WP indicated
Recent decision by German Minister Ms. Schavan: Start of the International FAIR Project on November 7, 2007 together with all partners that have expressed their commitment on FAIR. • Stage A: ? ; Stage B: SIS 300 and 300 Tm beamline • 11/2007: official end of R&D-phase • project money acc. costbook, no R&D money
SIS100/300 Design Parameters SIS100 SIS300 SIS100 SIS300 First Stage: Second Stage: Acceleration + Acceleration + Compression Stretching
BINP Novosibirsk Progress in SIS Magnet R&D Straight mark I full scale dipole magnet under fabrication at BNG / Würzburg Curved mark I full scale dipole magnet under fabrication at BINP / Novosibirsk R&D continued at JINP / Dubna incl. Quadrupole prototype GSI001, first 4 T prototype by BNL 6 T protoype under construction at Dubna Curved 4.5 T dipole magnet under fabrication at INFN
Layout of Super-FRS Superferric Multiplet Brmax =20 Tm • on-going magnet activities: • conceptual design multiplett (Toshiba) • superferric dipole (China) • radiation resistant magnets (BINP) Superferric Multiplet Superferric Multiplet MF1 3 x 9.75° Dipole Unit MF2
Super-FRS Dipole Prototype Development in China First lamination punched The assembly of die IMP Lanzhou IPP Hefei IEE Beijing CAS Coil fabrication Magnet design
High Energy Storage Ring for antiprotons • Momentum:1.5 – 15 GeV/c • Straights: Cooler and target section • Ring circumference:573 m.
Estimated Total Manpower for constructionas scrutinized and approved by CORE-A and STI in 2005/2006
Man Power Resources (dominantly provided by GSI) 1950 man-years during 8 years required on site incl.205 m-y for controls CR FAIR Div. SIS 100 Acc. Div. specification QA, construction