ESS Linac WP8 Radio Frequency Systems and Test Facilities

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ESS Linac WP8 Radio Frequency Systems and Test Facilities ESS TAC Lund, 8 July 2010 Roger Ruber (Uppsala University) for the ESS Linac RF Team

Outline Work Package description Objectives Organization Technical planning Scientific challenges Design baseline Development steps Planning and prototyping Test facilities Resources estimation Possible partners Roger Ruber: ESS RF Systems 30 Jun 2010 ESS/SPL Collaboration Meeting 2

WP8: Work Package Description Objectives Issues to be addressed 200 cavities/distribution points, required reliability above 95% minor fault might create a major risk low beam loss operation prevent activation accelerator components RF system is a major part of the budget must be cost, energy and resource effective training future staff R&D focus RF modelling LLRF & RF beam interaction simulations resource efficiency and reliability alternative RF power generation, distribution and controls prototype RF system two cavities per klystron concept efficient power generation & energy recovery Roger Ruber: ESS RF Systems 30 Jun 2010 ESS/SPL Collaboration Meeting 3

WP8: Work Package Description Organization Technical Board Accelerator PM Mats WP1 Mngmt Coord Mats WP2 Acc. Sci Steve WP3 Infra Serv Josu WP4 Spoke Cav Sebastien WP5 Elliptic Cav Guillaume WP6 NC Linac Santo WP7 HEBT Søren WP8 RF syst Roger WP Project Spec and Detailed Schedule Work Units: Development, Prototyping and Technical Design Report WU8.1 Management & Coordination WU8.2 RF Modelling WU8.3 LLRF WU8.4 RF Power Generation WU8.5 RF Power Distribution WU8.6 RF Test Facilities Roger Ruber: ESS RF Systems 30 Jun 2010 ESS/SPL Collaboration Meeting 4

WP8: Work Package Description Leader Uppsala University Scandinavia s oldest university: 1477 Long history: Carl von Linné, Anders Celsius, Olof Rudbeck Nobel prices: Manne & Kai Siegbahn, The Svedberg, (8) 40,000 students (2,000 doctoral students) 5,500 staff (3,600 researchers/teachers) Accelerator related research TSL: nuclear and neutron physics laboratory, cancer therapy (180 MeV cyclotron, 3.6 GeV CELSIUS) CLIC/CTF3: Two beam Test Stand, RF breakdown issues FLASH: Optical Replica Synthesizer XFEL: Laser heater ESS intention: RF development test stand Roger Ruber: ESS RF Systems 30 Jun 2010 ESS/SPL Collaboration Meeting 5

WP8: Work Package Description Technical Planning WU8.1: Management coordination TDR contribution specifications for tendering WU8.2: RF Modelling RF parameter list LLRF mathematical model RF simulations & HOM studies multipacting studies WU8.3: LLRF alternative architectures 352 MHz prototype 704 MHz prototype WU8.4: RF Power Generation alternative schemes 352 MHz prototype 704 MHz prototype WU8.5: RF Power Distribution alternative schemes 352 MHz prototype 704 MHz prototype WU8.6: Test Facilities 352 MHz NC/spoke cavities 704 MHz elliptical cavities Roger Ruber: ESS RF Systems 30 Jun 2010 ESS/SPL Collaboration Meeting 6

WP8: Scientific Challenges Design Baseline 352 MHz 704 MHz ESS proton linac: high reliability above 95% 20 Hz, 2.0 ms beam pulses (~2.3 ms RF pulse) 50 ma, 5.0 MW average (beam loss <1 W/m) future upgrade to 75 ma, 7.5 MW Power provided by RF system about 200 cavities 352 MHz: 1 RFQ, 2 bunching cavities, 3 DTL, 56 SC spoke cavities 704 MHz: 136 SC elliptical cavities baseline with conservative off the shelf technology one power source per cavity; peak power up to 1.2 MW Roger Ruber: ESS RF Systems 30 Jun 2010 ESS/SPL Collaboration Meeting 7

WP8: Scientific Challenges RF Power to Beam M. Eshraqi (06-2010) Roger Ruber: ESS RF Systems 30 Jun 2010 ESS/SPL Collaboration Meeting 8

WP8: Scientific Challenges Development Steps RF modelling and LLRF piggy back on existing systems & developments RF modelling and simulation, design update/enhancements to minimize beam loss decrease power usage cavity & coupler design RF power generation and distribution baseline with conservative off the shelf technology investigate alternatives solid state technology phase locking magnetrons (ideas A. Dexter/Lancaster) investigate energy/resource efficiency and recovery two cavities per klystron concept RF to DC recovery in loads (ideas F. Caspers/CERN) heat recovery from high temperature cooling water (power sources, loads) Roger Ruber: ESS RF Systems 30 Jun 2010 ESS/SPL Collaboration Meeting 9

WP8: Planning and Prototyping Test Facilities 352 MHz NC Linac piggy back on existing facilities/development work 352 MHz Spoke cavities CEA Saclay: existing IPN Orsay: new prototype RF system (after 2012) 704 MHz Elliptical cavities CEA Saclay: existing upgrade for cryomodule testing (after 2012) CERN: upgrade for 704 MHz prototype RF system (by 2012) ESS contributing with pulse modulator Uppsala University: new prototype RF system (after 2012) two cavity per klystron concept Roger Ruber: ESS RF Systems 30 Jun 2010 ESS/SPL Collaboration Meeting 10

WP8: Planning and Prototyping Uppsala Test Facility (FREIA) Modulator, 704 MHz klystron (~3MW) Refrigerator (140 l/h,, 400W with LN 2 precooling) 2 Elliptical cavities in horizontal cryostat (HoBiCat( HoBiCat) Roger Ruber: ESS RF Systems 30 Jun 2010 ESS/SPL Collaboration Meeting 11

WP8: Planning and Prototyping Timeframe WU8.1 Coordination and Communication Coordination Technical design report Technical specifications WU8.2 RF Modelling RF parameter list Mathematical model RF simulations WU8.3 Low Level RF Investigation alternatives 352 MHz prototype 704 MHz prototype 704 MHz prototype 2 cavities concept WU8.4 RF Power Generation Investigation alternatives 352 MHz prototype 704 MHz prototype 704 MHz prototype 2 cavities concept WU8.5 RF Power Distribution Investigation alternatives 352 MHz prototype 704 MHz prototype 704 MHz prototype 2 cavities concept WU8.6 RF Test Facility 352 MHz test facility 704 Mhz test facility 704 Mhz test facility 2 cavities concept 704 MHz test facility 8 cavities cryomodule 2010 2011 2012 2013 2014 2015 Year 0 1st Year 2nd Year 3rd Year 4th Year 5th Year Roger Ruber: ESS RF Systems 30 Jun 2010 ESS/SPL Collaboration Meeting 12

WP8: Planning and Prototyping Resources Estimation 2010 2011 2012 2013 2014 Year 0 1st Year 2nd Year 3rd Year 4th Year TOTAL Material [ksek] 0 14,694 33,867 26,345 0 74,906 Travel [ksek] 349 2,719 2,427 867 852 7,215 Other [ksek] 10 1,405 6,342 10,180 10,180 28,116 Sum [ksek] 359 18,818 42,636 37,392 11,032 110,237 Material [keur] 0 1,427 3,288 2,558 0 7,272 Travel [keur] 34 264 236 84 83 701 Other [keur] 1 136 616 988 988 2,730 Sum [keur] 35 1,827 4,139 3,630 1,071 10,703 Personnel (*) [FTEyear] 1 25 29 29 28 111 [FTEmonth] 12 302 344 344 332 1,336 (*) 1 FTEyear ~ 850 ksek 111 FTEyear == 94,605 ksek TOTAL BUDGET: 204,842 ksek 19,888 keur Roger Ruber: ESS RF Systems 30 Jun 2010 ESS/SPL Collaboration Meeting 13

WP8: Planning and Prototyping Possible Partners Institute Work Package Task WU8.1 WU8.2 WU8.3 WU8.4 WU8.5 WU8.6 ESS X X X X X X Uppsala U. X X X X X X Europe CEA X X X X X CERN X X X X X CI / UM X X DESY X X IPN Orsay X X X X X JAI / RHAL X Linkop. U. X Lund U. X X Rostock U. X Soltan INS X Stockh. U. X TU Darm. X U. Oslo X Asia KEK (X) U.S.A SNS X X ANL X FNAL X X JLAB X LBNL X Roger Ruber: ESS RF Systems 30 Jun 2010 ESS/SPL Collaboration Meeting 14

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