Status of FAIR Boris Sharkov FAIR Joint Core Team.
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Transcript of Status of FAIR Boris Sharkov FAIR Joint Core Team.
Status of FAIRStatus of FAIR
Boris SharkovBoris SharkovFAIR Joint Core TeamFAIR Joint Core Team
April 10, 2023 2
FAIR Baseline Technical Report 2005
100 m
UNILAC
SIS 18
SIS 100/300
HESRSuperFRS
NESR
CR
RESR
FLAIR
Radioactive Ion Production Target
Anti-Proton Production Target
Nuclear Structure Physics and Nuclear Astrophysics with RIBs
Hadron Physics with Anti-Proton Beams
Physics of Nuclear Matter with Relativistic Nuclear Collisions
Atomic Physics Plasma Physics and Applied Science with highly charged, highly Bunched ion Beams and low energy anti-protons
++ Accelerator PhysicsAccelerator Physics
FAIR will provide worldwide unique accelerator and FAIR will provide worldwide unique accelerator and experimental facilities allowing for a large variety of experimental facilities allowing for a large variety of fore-front research in physics and applied sciencesfore-front research in physics and applied sciences
FAIR – Facility for Antiproton and Ion Research
Helmholtzzentrum GmbH
Austria IndiaChina Finnland France Germany Greece UKItaly Poland Slovakia Slovenia Spain Sweden Romania Russia
Observers
Modularized Start Version
Boris Sharkov
FAIR Joint Core Team Leader
GSI Helmholtzzentrum fuer Schwerionenforschung
GmbH
Development of Project StructureDevelopment of Project Structure2005 Entire
Facility
BTR
2007 Phase A
BTR
Phase B
SIS300 +
e-ring
2009 Module 0
SIS100
Module 1
expt areas HADES/CBM and APPA
Module 2
Super-FRS
fixed target area
NuSTAR
Module 3
pbar facility, incl. CR for
PANDA,
options for NuSTAR
Module 4
LEB for NuSTAR, NESR for NuSTAR and APPA,
FLAIR for APPA
Module 5
RESR
higher intensity for PANDA & parallel operations with NuSTAR and APPA
Phase B
SIS300 +
e-ring
Startversion Phase B
April 10, 2023 5
Project Staging
2005 idea: Staging of the project ( total cost 2005: 1187 M€) three stages defined by optimizing start of science
2007 idea: Staging of the project ( available funds 940 M€ )two phases defined / matched with assured funding level Phase A = start-version, Phase B = all that‘s left out in Phase A
2009 idea: Modularized FAIR Start Version 2009start with module 0 to 3, modules 4 and 5 (when funds available)
ModulesModules
Module 0: Heavy-Ion Synchrotron SIS100, basis and core of FAIR, required for all physics programmes
Module 1: Experiment halls at SIS100 for extracted beam diagnostics, HADES/CBMHADES/CBM, APPA, and detector calibration.
Module 2: Super-FRS for NUSTAR.
Module 3: Antiproton facility for PANDA, providing further options also for NUSTAR
Module 4: Additional low-energy caves for NUSTAR, NESR storage ring for NUSTAR und APPA, building for antimatter programme FLAIR
Module 5: RESR storage ring for a higher beam intensity for PANDA and parallel operation with NUSTAR
Modular VersionModular Version
APPA
CBM
Rationale for new Modularized Start Version (WP)Rationale for new Modularized Start Version (WP)
• Cost estimate for modular version presented by architects•Detailed list of site related construction costs worked out•based upon a new cost estimate in 2009 for the accelerator complex• firm commitments of FAIR Member States•Germany and State of Hesse announced to cover "site-dependent" construction costs outside FAIR project budget
+ 110 M€ + 110 M€ !!
RoadmapRoadmap
• Driven by civil construction• Aim for earliest commissioning of accelerators and respective experiments
Module Construction time (months)
Start of construction
Operational
0 72 2010 / 11 2015 / 16 1 28 2010 / 11 2015 / 16 2 60 2012 2016 3 60 2012 2016
The new Testing Hall for FAIRThe new Testing Hall for FAIR
Boris Sharkov – Leader FAIR Joint Core Team
Roofing Ceremony in the new Testing Hall Roofing Ceremony in the new Testing Hall - September 3, 2009- September 3, 2009
Boris Sharkov – Leader FAIR Joint Core Team
ConclusionsConclusions
• Based on recent cost estimates and firm commitments of FAIR Member States the MSV is elaborated
• Modules 0-3 ensure a physics programme that is still unique, competitive with great discovery potential
• all FAIR science communities can perform excellent physics from early on
• the facility can be smoothly upgraded towards the full version of FAIR facility
• JCT continues efforts on cost savings measures in cc, accelerator design etc…
• Setup of the international company proceeds in parallel
FAIR will open a new research era in hadronic, nuclear and FAIR will open a new research era in hadronic, nuclear and atomic physics as well as in applied science. The White atomic physics as well as in applied science. The White Paper outlines a Paper outlines a realistic pathrealistic path to achieve this goal. The to achieve this goal. The Modularized Start Version provides an outstanding and Modularized Start Version provides an outstanding and world-leading research program for all scientific FAIR world-leading research program for all scientific FAIR communities which will be further strengthened by the communities which will be further strengthened by the addition of further modulesaddition of further modules
Thank you for attention !Thank you for attention !
Status in October:Status in October:
Revised costs: 1027 M€*
Firm commitments: 1039 M€ (total 1104 M€ )
Challenge: define project for 1039 M€ that allows excellent physics and serves all communities !
This is beeing evaluated financially and scientifically
*(2005 prices)
PAC on Nuclear Structure and Nuclear Astrophysics (NUSTAR-PAC): 667 authors
1.) Low Energy Branch (LEB)High-resolution In-Flight Spectroscopy (HISPEC)/ Zs.Podolyak/ SurreyDecay Spectroscopy with Implanted Ion Beams (DESPEC) + B. Rubio ValenciaPrecision Measurements of very short-lived Nuclei using an Advanced Trapping System for highly-charged Ions (MATS) K.Blaum MainzLASER Spectroscopy for the Study of Nuclear Properties (LASPEC) P. Campbell ManchesterNeutron Capture Measurements (NCAP) M.Heil FZKAntiprotonic Radioactive Nuclides (Exo+pbar) M. Wada Riken
2.) High Energy Branch (R3B)A Universal Setup for Kinematical Complete Measurements of Reactions with Relativistic Radioactive Beams (R3B) T. Aumann GSI
3.) Ring Branch (STORIB)Study of Isomeric Beams, Lifetimes and Masses (ILIMA) Y .Novikov SPNPIExotic Nuclei Studied in Light-Ion Induced Reactions at the NESR Storage Ring (EXL) M. Chartier Liverpool Electron-Ion Scattering in a Storage Ring (e-A Collider) (ELISe) H. Simon GSIAntiproton-Ion Collider: A Tool for the Measurement of Neutron and Proton rms radii of Stable and Radioactive Nuclei (AIC) R. Krücken TUM