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Status and Future Perspective of the HIE-ISOLDE Project

Status and Future Perspective of the HIE-ISOLDE Project. IBS-RISP @ CERN, November 19-20, 2012 Yacine.Kadi@cern.ch. OUTLINE. Scope of HIE-ISOLDE Upgrade of ISOLDE Facility: HIE- ISOLDE R&D A ctivities Outlook for 2012. ISOLDE: the ISOL-type RIB facility at CERN. Pulsed 1.4 GeV

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Status and Future Perspective of the HIE-ISOLDE Project

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  1. Status and Future Perspective of the HIE-ISOLDE Project IBS-RISP @ CERN, November 19-20, 2012 Yacine.Kadi@cern.ch

  2. OUTLINE • Scope of HIE-ISOLDE • Upgrade of ISOLDE Facility: HIE-ISOLDE • R&D Activities • Outlook for 2012

  3. ISOLDE: the ISOL-type RIB facility at CERN Pulsed 1.4 GeV Proton beam Courtesy D. Voulot

  4. Courtesy F. Wenander

  5. Motivation The High Intensity and Energy (HIE) ISOLDE project builds on the success of the REX-ISOLDE post-accelerator and will focus on the upgrade of the REX facility but also aims to improve the target and front-end part of ISOLDE to fully profit from upgrades of the existing CERN proton injectors(LINAC4 and PSB Upgrade): • Higher energy for the post-accelerated radioactive beam • More beams (Intensity wise and different species) • Better beams (High purity beams, low emittances, more flexibility in the beam parameters)

  6. HIE-ISOLDE aims at increasing the energy of these RIB up to 10A MeV and their intensity by a factor 10 Energy Upgrade: The HIE-ISOLDE project concentrates on the construction of the SC LINAC and associated infrastructure in order to upgrade the energy of the post-accelerated radioactive ion beams to 5.5 MeV/u in 2015 and 10 MeV/u by 2016 Intensity Upgrade: The design study for the intensity upgrade, also part of HIE-ISOLDE, starts in 2012, and addresses the technical feasibility and cost estimate for operating the facility at 15 kW once LINAC4 and PS Booster are online.

  7. NuPECC Long Range Plan 2010 Timeline for RIB Facilities

  8. Superconducting LINAC installed in Three Phases 3 stages installation 1.2 MeV/u 3 MeV/u Now 5.5 MeV/u 2014 10 MeV/u 2016 >2017

  9. HIE-ISOLDE SC LINAC

  10. R&D activities (2008 – 2011)

  11. Proposed stage 1 HEBT layout

  12. Latest HEBT design – stage 2b • All details on EDMS (HIE-ISOLDE/HEBT LINES OPTICS AND LAYOUT) • Drawings, layout tables and (new) madx reference optics files

  13. Planning ? ?

  14. Civil Engineering Compressor and Cold Box Building Autumn 2012 ! Civil Engineering finished summer 2012

  15. Racks sub systems B. 170 B. 199 B. 198 Electrical systems: Oct 2012 – June 2013

  16. Cooling & Ventilation Experimental hall 170 B. 199 cold box building B. 198 compressor building Cooling & Ventilation: Oct 2012 – June 2013

  17. Modular Linac & Cryo Line Courtesy: Stephane Maridor 2015 5.5MeV/u Sep 2014 – Feb 2015 Cryo Cold Line- stage 1: January 2014 – June 2014 Linac CM 1&2 - stage 1: August 2014 – October 2014

  18. Modular Cryo Line Courtesy: Stephane Maridor 2016 ? 10MeV/u Cryo Cold Line- stage 2 Linac CM High-β 1,2,3&4 - stage 2a

  19. Modular Cryo Line Courtesy: Stephane Maridor Chopper Line • 2017 ? Cryo Cold Line- stage 2 Linac CM High-β 1,2,3 & 4, Low-β 1&2 - stage 2b and Chopper Line

  20. Call for Letters of Intent (deadline May 21 2010) • 34 Letters submitted • 284 Participants from 76 Laboratories in 22 Countries • 30 LOIs make use of the Energy and Intensity increases; 4 of the intensity upgrade only • Major mechanisms are Coulex (13) and transfer(16); elastic scattering(3); fission(2) • (3) letters concern masses and moments; (4) astrophysics and (5) major new instrumentation • Major subjects: Nuclear shapes ; Shell evolution; Halo properties; Nuclear astrophysics

  21. Miniball + T-REX • Segmented Ge array • Inner Si-strip detection for charged particles (T-REX) • No show stopping beam requirements but would benefit from slow extraction and buncher/chopper

  22. Helios • Solenoid for transfer reactions • Needs buncher/chopper for TOF measurement with 2 ns resolution

  23. ACTAR • Active target for resonant scattering and transfer reactions • Allows to measure with very low intensities

  24. BUDGET

  25. OUTLOOK • Civil Engineering Works completed • Installation of Main Services (EL, CV, others) • Decision on the procurement of Cryogenic Plant (FC Dec. 2012) • Ready to launch procurement of first batch of high-beta cavities => via CATE + others • Ready to launch procurement of CM1 and CM2 => via CATE • Ready to launch procurement of HEBT phase-1 • Cost and Schedule Review (22-23 Nov. 2012)

  26. Thank you HIE-ISOLDE web site -> http://hie-isolde.web.cern.ch/hie-isolde/ CATHI-ITN web site -> https://espace.cern.ch/Marie-Curie-CATHI/default.aspx

  27. Acknowledgements • The ISOLDE Collaboration • The HIE-ISOLDE Project Team and groups within CERN Accelerator and Technology Sector • The Swedish Knut and Alice Wallenberg Foundation (KAW 2005-0121) • The Belgian Big Science program of the FWO (Research Foundation Flanders) and the Research Council K.U. Leuven • The CATHI Marie Curie Initial Training Network: EU-FP7-PEOPLE-2010-ITN Project number 264330. • The Spanish Programme “Industry for Science” from CDTI

  28. Steering Committee International Advisory Panel 1.1 Project Leader – Y. Kadi (EN/HDO) 1.2 Project Safety Coordinator – A.P. Bernardes 1.3 Technical Coordinator – M. Pasini BE/RF HIE-ISOLDE Project 1. Project Management 1.4 Design Study Coordinator–R.Catherall EN/STI 1.5 Budget and Planning – E.Delachenal EN/GMS HIE-LINAC 2. Linac Systems 2.1 Cavity RF BE/RF 1.6 Administration – E. Cochet EN/GMS 2.2 Cavity Design manufacturing EN/MME TE/VSC 2.3 Beam dynamics BE/RF-ABP 2.4 Cryomodules TE/MSC EN/MME 2.5 Beam Instrumentations BE/BI 2.6 SC Solenoid TE/MSC 2.7 Beam transfer line (magnets) TE/MSC 8.1 Safety Coordinator GS/DI 8. Safety 2.8 Linac Integration EN/MEF 8.2 Radioprotection DG/SCR 2.9 Vacuum TE/VCS 8.3 Access System GS/ASE 2.10 Survey BE/ABP 8.4 Access System GS/ASE 3.1 Civil Engineering GS/SEM 3. Infrastructure & Integration 3.2 Integration EN/MEF 3.3 Cooling ventilation EN/CV 3.4 Electrical systems EN/EL 3.5 Cryogenic system TE/CRG Work Breakdown Structure 3.6 Power converters TE/EPC 3.7 Industrial Control system EN/ICE 3.8 Beam Control system BE/CO 3.9 Interlocks TE/MPE 4.1 Single cavity test BE/RF 4. Installation & Commissioning 4.2 Cryomodule test BE/RF 4.3 Transport & Handling EN/HE 4.4 Planning & Installation EN/MEF 4.5 Linac commissioning BE/RF-OP Design Study 5. Target Study 5.1 Target design EN/STI-HE 5.2 Front Ends EN/STI TE/EPC-ABT 5.3 Beam Diagnostics BE/BI 7. Injection & Beam distribution 7.1 Off line separator EN/STI 6.1 Layout upgrade EN/MEF 6. Target Area and Class-A Lab Integration 7.2 Separator areas EN/STI 6.2 Cooling and ventilation EN/CV 7.3 Experiment Hall EN/MEF 6.3 Electrical systems EN/EL 7.4 Beam lines BE/ABP 6.4 Vacuum TE/VCS 6.5 Survey BE/ABP 6.6 Civil engineering GS/SEM 6.7 LL Control system EN/STI

  29. Acknowledgements Steering Committee M. Huyse Project Management Y. Kadi International Advisory Panel A. Bracco International Collaboration I. Goulas Physics Coordination Maria Garcia-Borge Technical Coordination Y. Kadi Linac System W. Venturinia Infrastructure & Integration E. Siesling Design Study R. Catherall Safety A.P. Bernardes Beam Dynamics Working Group RF Accelerating Working Group Cryo- modules Working Group Linac Commissioning Working Group Infrastructure & Integration Working Group Design Study Working Group Safety Working Group Physics Working Group High-Energy Beam Transfer WG

  30. Research Training Themes Addressed by the CATHI Proposal(56 FTE over 4 years) HIE-ISOLDE General Meeting, 19 March 2010 30 Y. Kadi HIE-ISOLDE Proposal, IEFC, August 21, 2009

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