CERN NuPAC meeting 10-12 Dec 2005 The future of ISOLDE: accelerated radioactive beams Peter Butler 1.HIE-ISOLDE 2.EURISOL.

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Presentation transcript:

CERN NuPAC meeting Dec 2005 The future of ISOLDE: accelerated radioactive beams Peter Butler 1.HIE-ISOLDE 2.EURISOL

CERN NuPAC meeting Dec 2005 Users & Science 450 users (7% total CERN) potentially 1000 users with upgrade 25 countries; 100 institutions 175 projects (4 years)

CERN NuPAC meeting Dec 2005  Originally constructed by several CERN member states ~ 15 MCHF  Utilises now  50% ISOLDE running time  In last three years REX has accelerated 33 different RIB  Present RIB yield from ISOLDE allows 10% of all radioisotopes be used REX post-accelerator

CERN NuPAC meeting Dec 2005 World ISOL

CERN NuPAC meeting Dec 2005 HIE-ISOLDE Increase in REX energy from 3 to 10 MeV/u (first step in increase to 5.4 MeV/u) Increase proton intensity 2  6  A (LINAC4, PSB upgrade) - target and front-end upgrade Super-HRS for isobaric separation RILIS upgrade & LIST RFQ cooler, REX-TRAP, REX-EBIS REX-ECR upgrades Low energy facility (< 1 MeV/u) Collinear Laser Spectroscopy, ISOLTRAP nuclear mass Condensed matter, Nuclear Astrophysics

CERN NuPAC meeting Dec 2005 Spectrometer plans ISOLDE PH-IS and INTAG JRA

CERN NuPAC meeting Dec 2005 Coulomb barrier for RIB

CERN NuPAC meeting Dec 2005 Transfer reactions at high energy W.N. CATFORD (SURREY)

CERN NuPAC meeting Dec 2005 ISOL In-flight RIB Physics Reach

CERN NuPAC meeting Dec 2005 Time-line and costs REX energy upgrade to 5.4 MeV/u2008 High intensity upgrade2010 REX energy upgrade to 10 MeV/u2011 Material costs15.3 MCHF Staff42.5 FTE Identified sources extra-CERN: 4.1 MCHF ISOLDE collaboration IKS Leuven BE EPSRC UK ISTC, EU, RU VR SE

CERN NuPAC meeting Dec 2005 Operational costs Existing REX operation650 kCHF per year (2 engineers, 3 technicians + materials) Must be transferred to CERN May 2006 HIE-ISOLDE, additional personnel: operation 3 FTE target/front-end2 FTE DAQ 1 FTE Secretariat0.5 FTE

CERN NuPAC meeting Dec 2005 EU projects ( ) EURONS I 3 : (2.1 MCHF) TNA JRA’s: INTAG, CHARGE BREEDER, LASER, SAFERIB, (TRAPSPEC) EURISOL DS:(2.8 MCHF) R&D in targets &  -beam radioisotope manipulation safety

CERN NuPAC meeting Dec kW direct production 5 MW spallation n target  100 MeV/u RIB Eurisol

CERN NuPAC meeting Dec 2005 EURISOL layout SPL HIE-ISOLDE PS booster IF target

CERN NuPAC meeting Dec 2005 European Roadmap for RIB facilities linac d 40 MeV HI 15 MeV/u reactor PS booster p 1.4 GeV

FINIS

CERN NuPAC meeting Dec 2005 Europe 2 nd Generation ISOL FACILITYDRIVERPOWERENERGY HIE- ISOLDE CERN PS booster p, 1.4 GeV, 10 µA 10 KW MeV/u linac SPIRAL-II GANIL linac deuterons 40 MeV heavy ions 15 MeV/u 200 kW (secondary target) 2 – 25 MeV/u cyclotron MAFF Munich reactor10 14 n/cm 2.sec7 MeV/u linac SPES Legnaro linac p,d, … 100MeV 200 kW (secondary target) 10 MeV/u linac

driver accelerator or reactor thin targethigh-temperature thick target fragment separator experiment ion source mass separator storage ring In FlightISOL heavy ions light ions, neutrons post accelerator GeV/u (  s) meV to 100 MeV/u (ms to several s) gas cell (ms) IF versus ISOL After Mark Huyse stochastic/electron cooling to MeV/u (s)

CERN NuPAC meeting Dec 2005 Unique Experimental Facility Repertoire: 850 radionuclides from 70 elements Availability: 350 shifts of radioactive beam /year (2 primary targets & mass separators) Selectivity: target/ion source expertise, RILIS, mass separation Postacceleration: REX TRAP+EBIS+LINAC

CERN NuPAC meeting Dec 2005 World machines LocationDriverPost-accelerator Fragment separator Type of facility GSI –FAIR synchrotron, heavy ions: 1.5 A GeV -‘Super-FRS’In-Flight EURISOL protons, 1 GeV, 1-5 MW CW Linac, up to 100 A MeV -ISOL USA: RIA Rare Isotope Accelerator 900 MeV protons heavy ions: 400 A MeV, 100 kW Linac up to 8–15 A MeV 4-dipole Separator ISOL, In-Flight JAPAN: RIKEN RIB Factory Ring-cyclotrons up to 400 AMeV (light ions) up to 150 A MeV (heavy ions) - 3 fragment Separators storage & cooler rings In-Flight

CERN NuPAC meeting Dec 2005 Kr yields

CERN NuPAC meeting Dec 2005 RIB physics

SPL versus PS Booster

CERN NuPAC meeting Dec 2005 Costs

CERN NuPAC meeting Dec 2005 How does the differential cross section vary with beam energy ? and the total cross section ? W.N. CATFORD SURREY TIARA

CERN NuPAC meeting Dec 2005 How does the differential cross section vary with beam energy ? and the total cross section ? W.N. CATFORD SURREY TIARA

CERN NuPAC meeting Dec 2005 How does the differential cross section vary with beam energy ? and the total cross section ? W.N. CATFORD SURREY TIARA

CERN NuPAC meeting Dec 2005 How does the differential cross section vary with beam energy ? and the total cross section ? W.N. CATFORD SURREY TIARA