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FP7 -
IA EUROLUMI Network
Walter Scandale, Frank Zimmermann
ESGARD-OMIA meeting
CERN, 11.09.2007
what is EUROLUMI?= network supporting research activities in FP7,
e.g. CNI on IR upgrade, IA JRAs on collimation, magnets, superconducting rf for SPL
= building on the success of FP6 CARE-HHH
= widely scaled-down version of earlier Design Study proposal EUROLUMI by F. Ruggiero and W. Scandale (requested 0.6 MEuros ~ only ~5% of the original DS budget!!)
= European partner of US LHC Accelerator Research Program (US-LARP)
Name Event DateName Event Date33
EUROLUMI goalsEUROLUMI goalsCoordinateCoordinate and and integrateintegrate the activities of the worldwide accelerator the activities of the worldwide accelerator
and particle physics communities, towards realizing the full potential of and particle physics communities, towards realizing the full potential of the LHC, including LHC luminosity upgrades and new/enhanced the LHC, including LHC luminosity upgrades and new/enhanced
injectors; create synergies by supporting SIS upgrade and FAIR projectinjectors; create synergies by supporting SIS upgrade and FAIR project
design choices for LHC upgrade, new injectors, & FAIR - LHC luminosity upgrade: optics, collimation, beam dynamics - LHC injector upgrade, SIS upgrade, FAIR: generation of high-quality hadron beams- R&D & experimental studies at existing colliders: RHIC, Tevatron, LHC, DAFNE - study & recommend technologies required for various design options (e.g., NbTi and
Nb3Sn IR magnets, detector-embedded magnets, low-loss fast ramped magnets [nc & sc])- sketch path for long-term LHC energy upgrade
coordinate activities and foster collaborations- integrate effort of major laboratories- integrate effort of small lab” and universities- maintain community capable of advancing technical realization & scientific exploitation
dissemination and outreach- sustain an information network; publish & document results - support summer students, technical students, PhD students and postdocs - set up or extend web pages and databases- discuss improvements for existing hadron beam facilities in Europe
Name Event DateName Event Date44
EUROLUMI work packagesEUROLUMI work packagesWP0: WP0: NNetwork etwork AAdministration and dministration and MManagement anagement (NAM)(NAM)
WP1: WP1: AAccelerator ccelerator MMagnet agnet DDevelopments evelopments (AMD)(AMD)- - keywords:keywords: stability; quench limit, and aperture of new LHC insertion stability; quench limit, and aperture of new LHC insertion
magnets, magnets for PS2; pulsed magnets for a future SPS upgrade; detector-magnets, magnets for PS2; pulsed magnets for a future SPS upgrade; detector-embedded magnets; high field magnet design; applications of high-temperature embedded magnets; high field magnet design; applications of high-temperature superconductors; handling thermal losses; magnet-measurement techniques (loss, superconductors; handling thermal losses; magnet-measurement techniques (loss, field, etc.)field, etc.)
WP2: WP2: AAdvanced dvanced BBeam eam CCollimation ollimation (ABC) (ABC) - - keywords:keywords: consumable collimators; material tests; crystal collimation; cleaning consumable collimators; material tests; crystal collimation; cleaning efficiency; impedance; intensity limits; diagnostics; automatic set-up procedures; efficiency; impedance; intensity limits; diagnostics; automatic set-up procedures; beam feedbacks; machine protection; radiation issues; remote handling beam feedbacks; machine protection; radiation issues; remote handling
WP3: WP3: AAcceleratorccelerator and and CCollider ollider EEffort ffort (ACE)(ACE)- - keywords:keywords: interaction-region design for LHC luminosity upgrade; beam dynamics interaction-region design for LHC luminosity upgrade; beam dynamics for SPL, PS2, SPS, and LHC; space-charge, impedance and instability calculations; for SPL, PS2, SPS, and LHC; space-charge, impedance and instability calculations; electron-cloud effects; beam measurements and collimation tests, beam-beam effects electron-cloud effects; beam measurements and collimation tests, beam-beam effects with large Piwinski angle; long-range beam-beam interaction; beam-beam with large Piwinski angle; long-range beam-beam interaction; beam-beam compensation; crab cavities; crab waists; electron lenses; optimization of operating compensation; crab cavities; crab waists; electron lenses; optimization of operating parameters; IR vacuum parameters; IR vacuum
Name Event DateName Event Date55
participating institutes participating institutes AMDAMD ABCABC ACEACE
CEA (France)CEA (France) xx
CERN (Europe)CERN (Europe) xx xx xxCockcroft Institute (UK)Cockcroft Institute (UK) xx xx xxCSIC-CIEMAT (Spain)CSIC-CIEMAT (Spain) xx xx
DESY (Germany)DESY (Germany) xx
GSI (Germany)GSI (Germany) xx xx xxINFN (Italy)INFN (Italy) xx xx xxPSI (Switzerland)PSI (Switzerland) xx
RAL (UK)RAL (UK) xx
TEU (Netherlands)TEU (Netherlands) xx
WUT (Poland)WUT (Poland) xxassociated institutes: CRPP, TUBE, ENEA, EPFL, FZK, TEMF, US-LARP associated institutes: CRPP, TUBE, ENEA, EPFL, FZK, TEMF, US-LARP (BNL, FNAL, LBNL, SLAC), JINR, IHEP, Kurchatov, KEK, Torino U., (BNL, FNAL, LBNL, SLAC), JINR, IHEP, Kurchatov, KEK, Torino U., Plansee Company, Austrian RC, Alicante,U, Milano U, Texas A&M U., U. Plansee Company, Austrian RC, Alicante,U, Milano U, Texas A&M U., U. Geneva, U. Bologna, U. Sannio, John Adams Institute, ITER-JWS, ITER-Geneva, U. Bologna, U. Sannio, John Adams Institute, ITER-JWS, ITER-ELEELE
Name Event DateName Event Date66
EUROLUMI main topicsEUROLUMI main topics• LHC phase-1 and phase-2 upgrades LHC phase-1 and phase-2 upgrades
• two phase-2 LHC upgrade pathstwo phase-2 LHC upgrade paths (“early separation (“early separation scheme” and “large Piwinski angle scheme”) scheme” and “large Piwinski angle scheme”)
• LHC injector upgrades + enhancementsLHC injector upgrades + enhancements (SPL, PS2, (SPL, PS2, SPS+); SPS+); SIS upgrade, FAIRSIS upgrade, FAIR
• LHC intensity limits, LHC LHC intensity limits, LHC * limits* limits
• LHC + FAIR collimationLHC + FAIR collimation andand machine protectionmachine protection
• pertinent beam dynamics issuespertinent beam dynamics issues (intensity (intensity limitations, optics design, imperfections, magnet limitations, optics design, imperfections, magnet specifications and magnet development, rf needs, specifications and magnet development, rf needs, beam-beam effects and compensation, IR vacuum, beam-beam effects and compensation, IR vacuum, crab cavities, crab waists, feedback upgrade, space-crab cavities, crab waists, feedback upgrade, space-charge effects in injectors, advanced collimation,…) charge effects in injectors, advanced collimation,…)
• beam testsbeam tests in SPS, RHIC, LHC, (PS, PS booster),… in SPS, RHIC, LHC, (PS, PS booster),…
Name Event DateName Event Date77
EUROLUMI deliverablesEUROLUMI deliverables• annual large workshops in each work package annual large workshops in each work package continuing the continuing the
very productive series in CARE-HHH withvery productive series in CARE-HHH with publication of publication of proceedingsproceedings
• topical mini-workshopstopical mini-workshops similar to past HHH mini-workshops similar to past HHH mini-workshops on crystal collimation, electron-cloud cures, etc.on crystal collimation, electron-cloud cures, etc.
• attendance of, and contributions to,attendance of, and contributions to, US-LARP events US-LARP events
• participation in beam experimentsparticipation in beam experiments, e.g. at SPS, RHIC, , e.g. at SPS, RHIC, Tevatron, DAFNE, LHC, PS, PS booster,…Tevatron, DAFNE, LHC, PS, PS booster,…
• support of support of visitorsvisitors and of and of visits to partner institutesvisits to partner institutes
• training of training of summer studentssummer students, support for , support for technical students, technical students, PhD students and postdocs/fellowsPhD students and postdocs/fellows
• disseminationdissemination of network results by of network results by journal publicationsjournal publications and and by seminars at by seminars at partner institutes, conferences, and European partner institutes, conferences, and European universitiesuniversities, and via, and via web documentation, e.g. web databases web documentation, e.g. web databases
Name Event DateName Event Date88
EUROLUMI resourcesEUROLUMI resources
• total resources from EU: 0.6 MEuros over 4 total resources from EU: 0.6 MEuros over 4 years years (annual budget similar to CARE-HHH)(annual budget similar to CARE-HHH)
• the splitting between partners is still subject the splitting between partners is still subject of negotiationof negotiation
Name Event DateName Event Date99
conclusionsconclusions
EUROLUMI will support EUROLUMI will support many critical many critical activities on hadron beamsactivities on hadron beams by a by a pan-pan-European collaborationEuropean collaboration in an international in an international context context
EUROLUMI will promote EUROLUMI will promote innovative magnet innovative magnet design, advanced collimation, and beam design, advanced collimation, and beam dynamics studies beyond the state-of-the-artdynamics studies beyond the state-of-the-art
EUROLUMI will allow reaching the EUROLUMI will allow reaching the full LHC full LHC potentialpotential and also help optimizing the and also help optimizing the design design of FAIRof FAIR
EUROLUMI will be a EUROLUMI will be a high-return investment high-return investment for Europefor Europe
Name Event DateName Event Date1010
spare slidesspare slides
example topics for example topics for injector upgradeinjector upgrade beam dynamicsbeam dynamics collimationcollimation beam testsbeam tests
injector upgrade – examplesinjector upgrade – examples
• LHC beam generation scheme for “long” flat p bunches with 50-ns spacing and 5e11 ppb
• alternative generation scheme for ultimate LHC beam
• electron cloud cures for PS and SPS
• intensity limits for SPS, PS(2), SPL, LHC, SIS+ and FAIR
beam dynamics – examplesbeam dynamics – examples• stability of intense long flat bunches• loss of Landau damping w harmonic rf• preservation of bunch flatness?• beam-beam effect with large Piwinski angle • few long-range collisions @ close distance • crab cavities • flat beams & crab waist collisions• collimator cleaning efficiency with off-momentum beta
beating & possible remedies • electron cloud in the LHC• operation near integer or ½ integer
collimation – examplescollimation – examples• novel collimator materials and concepts• design and performance studies for
consumable collimators• theoretical and simulation studies of crystal
collimation• collimation efficiency• aperture vs. impedance• intensity limits and constraints from
collimation
beam tests - examplesbeam tests - examples• wire compensation tests (SPS, RHIC)• effect of noise on emittance (SPS) • large Piwinski angle (RHIC, LHC)• wire compensation with colliding beams (RHIC,
DAFNE, LHC)• crystal collimation tests (SPS)• consumable collimator tests (LHC)• crab cavity development and tests (where?)• e-cloud remedies (SPS, PS, RHIC, LHC)• stability of flat intense bunches• long-range collisions (SPS, RHIC, LHC)