Presentation is loading. Please wait.

Presentation is loading. Please wait.

J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 1 The CLIC Study and the DAPNIA participation The world-wide scene about Linear Colliders.

Published byDoreen Armstrong Modified over 8 years ago

Similar presentations

Presentation on theme: "J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 1 The CLIC Study and the DAPNIA participation The world-wide scene about Linear Colliders."— Presentation transcript:

1 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 1 The CLIC Study and the DAPNIA participation The world-wide scene about Linear Colliders CERN Council Policy CLIC complementary to ILC Feasibility of the CLIC scheme CTF3, the facility to address the key issues Short & Medium Term DAPNIA responsibility Long Term DAPNIA perspectives Conclusion

2 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 2 World consensus about a Linear Collider as the next HEP facility after LHC 2001: ICFA recommendation of a world-wide collaboration to construct a high luminosity e+/e- Linear Collider with an energy range up to at least 400 GeV/c 2003: ILC-Technical Review Committee to assess the technical status of the various designs of Linear Colliders 2004: International Technology Recommendation Panel down-selecting the Super-conducting technology for an International Linear Collider (ILC) Linear Collider in the TeV energy range 2004: CERN council support for R&D addressing the feasibility of the CLIC technology to possibly extend Linear Colliders into the Multi-TeV energy range.

3 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 3 CLIC @ SPC & Council SPC: March 2004: Summary of CLIC Physics case and proposed accelerated R&D programme (CERN/SPC/841-CERN/2552) with recommendation of a world-wide multi-lateral collaboration of volunteer institutes for tests of feasibility of the CLIC concept for Multi-TeV Linear Collider to arrive before 2010 at a firm conclusion on its possible use SPC Chairman’s conclusion: The SPC supported the many good arguments on the rich physics potential of CLIC. The range of possibilities would be clarified by the results of LHC The SPC re-expressed its support for the acceleration of the tests of the feasibility of the CLIC concept on the proposed time scale Council’s summary of conclusions: CERN/2554 In line with the conclusion of the SPC, the Council expressed strong support for accelerating the R&D on CLIC as proposed by the management in document CERN/SPC/841-CERN/2552 SPC: June 05 & Sept 05: Progress follow-up and CTF3 visit

4 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 4 The ILC Plan and Schedule 2005 2006 2007 2008 2009 2010 Global Design EffortProject Baseline configuration Reference Design ILC R&D Program Technical Design Expression of Interest to Host International Mgmt LHC Physics CLIC (B.Barish @ CERN/SPC 050913 and ICFA workshop 051005)

5 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 5 Tentative long-term CLIC scenario Shortest and technically limited schedule Technology evaluation and Physics assessment based on LHC results for a possible decision on Linear Collider funding with staged construction starting with the lowest energy required by Physics

6 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 6 CERN participation to ILC ILC- MoU: Support to GDE ILC project management tools ILC@CERN Site Specific Cost Study Major partner in specific studies: Civil engineering, Cryogenics& Cryostats, Beam dynamics R&D on generic key issues independent of technology: Participation in EUROTeV design study & CARE project R&D on Beam diagn., Beam Delivery System (BDS), Beam dyn… Tests with beam in CTF3 Test facility: Participation to R&D on generation of Low Emittances @ ATF1/KEK and of small spot sizes @ATF2/KEK

7 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 7 J.P.Delahaye for The Compact LInear Collider Study Team The CLIC study is a site independent feasibility study aiming at the development of a realistic technology at an affordable cost for an e± Linear Collider in the post-LHC era for Physics in the multi-TeV center of mass colliding beam energy range. CLIC = Complementary to ILC = C ILC THE COMPACT LINEAR COLLIDER (CLIC) STUDY http:// clic-study.web.cern.ch/CLIC-Study / CERN 2000-008, CERN 2003-007, CERN 2004-005

8 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 8 World-wide CLIC collaboration l Ankhara University (Turkey): CTF3 beam studies & operation l BERLIN Technical University (Germany): Structure simulations GdfidL l BINP (Russia): CTF3 magnets development & construction l CIEMAT (Spain): CTF3 kickers, septa, correctors & power supplies l CERN (Switzerland): Study coord., Structures devel., CTF3 const.&com. l DAPNIA (France): CTF3 probe beam generation, acceleration & meas. l Finnish Industry (Finland): Sponsorship of a mechanical engineer l INFN / LNF (Italy): CTF3 delay loop, transfer lines & RF deflectors l JINR & IAP (Russia): Surface heating tests of 30 GHz structures l KEK (Japan): Low emittance beams in ATF l LAL (France): Electron guns and pre-buncher cavities for CTF3 l LAPP/ESIA (France): Stabilization studies l LLBL/LBL (USA): Laser-wire studies l North Western University (Illinois): Beam loss studies & CTF3 equipment l RAL (England): Lasers for CTF3 and CLIC photo-injectors l SLAC (USA): High Gradient Structure design&tests, CTF3 drive beam inj. l UPPSALA University (Sweden): Beam monitoring systems for CTF3 Ankara University (Turkey):CTF3 beam studies & operation Berlin Tech. University (Germany): Structure simulations GdfidL BINP (Russia):CTF3 magnets development & construction, DR wiggler & beam dynamics CERN:Study coordination, structures devel., CTF3 construction/commissioning CIEMAT (Spain):CTF3 septa and kickers, correctors, power extraction structures DAPNIA/Saclay (France):CTF3 probe beam injector EUFinancing of RF photo injector (FP6 JRA) Finnish Industry (Finland): Sponsorship of mechanical engineer INFN / LNF (Italy): CTF3 delay loop, transfer lines & RF deflectors, ring vacuum chambers JINR & IAP (Russia):Surface heating tests of 30 GHz structures KEK (Japan):Low emittance beams in ATF LAL/Orsay (France): Electron guns and pre-buncher cavities for CTF3 LAPP/ESIA (France): Stabilization studies, CTF3 beam position monitors LLBL/LBL (USA): Laser-wire studies North-West. Univ. Illinois (USA): Various CTF3 Beam diagnostics & CTF3 equipment RAL (England): Lasers for CTF3 and CLIC photo-injectors SLAC (USA): High Gradient Structure testing, structure design, CTF3 injector design Uppsala University (Sweden): Beam monitoring systems for CTF3

9 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 9 High acceleration gradient (150 MV/m) “Compact” collider-overall length  33 km Normal conducting accelerating structures High acceleration frequency (30 GHz) Two-Beam Acceleration Scheme RF power generation at high frequency Cost-effective & efficient (~ 10% overall) Simple tunnel, no active elements “modular” design, can be built in stages Easily expendable in energy Overall layout for a center of mass energy of 3 TeV/c CLIC technology for Multi-TeV Linear Colliders 33.2 km 5.2 km

10 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 10 e + injector, 2.4 GeV e - injector 2.4 GeV CLIC 3 TeV layout e + main linac e - main linac, 30 GHz, 150 MV/m, 14 km BC2 BC1 e + DR 360m e - DR 360m booster linac, 9 GeV, 3.75 GHz train combination  B 16 cm→ 8cm decelerator, 21 sectors of 669 m IP1 & IP2 drive beam accelerator 2.37 GeV, 937 MHz CR1 84 m CR2 334 m combiner rings delay 21 m 352 klystrons 40 MW, 94  s BDS 2.6 km BDS 2.6 km 33.6 km

11 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 11 Performances of Lepton Colliders

12 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 12 CLIC construction in phases: Energy upgrade 3 TeV Stage Linac 1Linac 2 InjectorComplex I.P. 2.6 km 14.0 km 2.6 km 33.2 km Linac 1Linac 2 InjectorComplex I.P. 1.5 km 5.0 km 13.0 km 1 TeV Stage 0.42 TeV Stage Linac 1Linac 2 InjectorComplex I.P. 1.9 km 1.5km1.5 km 1.9 km 6.8 km

13 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 13 Strategy to address key issues Key issues common to all Linear Collider studies independently of the chosen technology in close collaboration with: International Linear Collider (ILC) study The Accelerator Test Facility (ATF@KEK) European Laboratories in the frame of the Coordinated Accelerator Research in Europe (CARE) and of a “Design Study” (EUROTeV) funded by EU Framework Programme (FP6) Key issues specific to CLIC technology: Focus of the CLIC study All R1 (feasibility) and R2 (design finalisation) key issues addressed in test facilities: CTF@CERN except the Multi-Beam Klystron (MBK) which does not require R&D but development by industry (feasibility study already done)

14 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 14 CLIC technology-related key issues (ILC-TRC 2003 R1: Feasibility R1.1: Test of damped accelerating structure at design gradient and pulse length R1.2: Validation of drive beam generation scheme with fully loaded linac operation R1.3: Design and test of damped ON/OFF power extraction structure R2: Design finalisation R2.1: Developments of structures with hard-breaking materials (W, Mo…) R2.2: Validation of stability and losses of drive beam decelerator; Design of machine protection system R2.3: Test of relevant linac sub-unit with beam R2.4: Validation of drive beam 40 MW, 937 MHz Multi-Beam Klystron with long RF pulse R2.5: Effects of coherent synchrotron radiation in bunch compressors R2.6: Design of an extraction line for 3 TeV c.m. Covered by CTF3 Covered by EUROTeV Industrial development

15 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 15 Study of generic key issues common to ILC and CLIC = CLIC participation 27 MEuros (9 MEuros by EU)

16 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 16 INFN CLEX 2007-2009 2004 2005 CLIC Test Facility (CTF3) Combiner Ring: 2006 30 GHz stand and laser room 2004 - 2009 TL2: 2007 2007- 2008: Drive beam generation scheme (R1.2) 2008- 2009: Damped accelerating structure with nominal parameters (R1.1) ON/OFF Power Extraction Structure (R1.3) Drive beam stability bench marking (R2.2) CLIC sub-unit (R2.3) From 2005: Accelerating structures (bi-metallic) Development& Tests (R2.1) Key issues

17 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 17 D F D F D F D F D F D F D F D F LIL-ACS FDD F DFD DFD D F DUMP 8 m 2m D F D F D FDF D D F D DUMP D F D 40 m D F D 1m wide passage all around TBL 30 GHz Teststand Probe beam injector DUMP Layout for CLEX floor space DUMP D F D FF D D F D Instrumentation Testbeam 3m 6 m 13 m 15 m D F D D F D - Test beam line (TBL) to study RF power production (5 TW at 30 GHz) and drive beam decelerator dynamics, stability & losses - Two Beam Test Stand to study probe beam acceleration with high fields at high frequency and the feasibility of Two Beam modules CLIC experimental area (CLEX)

18 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 18 Work packages Relevant linac subunit Two-beam test stand Test Beam Line WP 3 CLEX Building WP 5 WP 2.2 WP 6 WP 2.1 30 GHz High Gradient Test Stand Probe Beam WP 4 Combiner Ring and Transfer Lines WP 1 WP 7 WP 9 Structures 30 GHz power source CTF3 Operation WP 8

19 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 19 CTF3 Collaboration World-wide Institutes have been invited to contribute to this programme by: taking full responsibility for part, complete of one or several work-packages providing voluntary contributions “a la carte” in cash, in kind and/or in man-power Multilateral collaboration network of volunteer institutes (from which CERN is one of them) participating jointly to the technical coordination and management of the project. CTF3 collaboration meeting held at CERN on 30/11/05 MoU being signed by 14 Institutes from 9 Countries

20 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 20 CTF3 collaboration (30/11/05)

21 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 21 CTF3 Injector&Linac installation (2004) 7A Thermionic Gun (LAL-SLAC) Bunch length adjustment with magnetic chicane Bunchers(LAL)&Solenoids(SLACstudy) Novel RF power compression with Barrel Open Cavity (BOC) Accelerating structure with full beam loading

22 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 22 Full responsibility of INFN Frascati 1. Dec. 2004 Dec.2004 Installation and commissioning with beam of the Delay Loop (2005) Injection area with 1.5 GHz RF deflector and septa

23 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 23 RF power in CTF2 Expected from input current Expected from output current 30 GHz power production in CTF3 for tests in CTF2 vacuum tanks containing Power Extraction Transfer Structure power out – rectangular WR34 to circular (overmoded) H01 17m waveguide with 5 bends but low-loss (85% transmission) (Russian collaboration) high power load result !!

24 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 24 incident RF pulse energy [mJ] Accelerating structure under test: Circular 2π/3, 3.5 mm, 55 MW for 150MV/m: Mo iris Pulse length [ns] Accelerating filed in 1. cell Well on the way to CLIC parameters 150MV/m during 70 ns 30 GHz conditioning of CLIC Accelerating Structure RF conditioning still progressing

25 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 25 CTF3 project & schedule

26 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 26

27 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 27

28 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 28

29 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 29

30 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 30

31 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 31

32 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 32

33 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 33

34 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 34

35 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 35

36 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 36

37 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 37

38 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 38 CLIC main beam injector complex Polarized or unpolarized electrons / unpolarized positrons

39 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 39 Conclusion E+/E- Linear Collider next facility at High Energy Frontier after LHC ILC and CLIC complementary technologies DAPNIA participation to both ILC and CLIC essential for DAPNIA and warmly appreciated by LC community DAPNIA responsibility of CTF3 Probe Beam in the frame of a world-wide multi-lateral collaboration: Full responsibility from design, construction, installation and commissioning Challenging project of high intensity & high quality beam generation and measurement Excellent opportunity to preserve and develop DAPNIA expertise on performing beam generation, acceleration, RF gymnastics, and measurements Medium and Long Term perspectives on the overall design and responsibility of the whole injector complexes of the main and drive beams of possible future High Energy Linear Colliders

40 J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 40 CTF3 collaboration (30/11/05)

Download ppt "J.P.Delahaye Journees Thematiques DAPNIA “Accelerateurs” (09-01-06) 1 The CLIC Study and the DAPNIA participation The world-wide scene about Linear Colliders."

Similar presentations

Compact Linear Collider. Overview The aim of the CLIC study is to investigate the feasibility of a high luminosity linear e-/e+ collider with a centre.

Compact Linear Collider. Overview The aim of the CLIC study is to investigate the feasibility of a high luminosity linear e-/e+ collider with a centre.
Discussion on EUROTeV and ILC Nick Walker (DESY) EUROTeV Kick-off Meeting DESY 1 November 2004.

Discussion on EUROTeV and ILC Nick Walker (DESY) EUROTeV Kick-off Meeting DESY 1 November 2004.
Industry and the ILC B Barish 16-Aug-05. 12-May-05ILC Consultations - Washington DC2 Why e + e - Collisions? elementary particles well-defined –energy,

Industry and the ILC B Barish 16-Aug May-05ILC Consultations - Washington DC2 Why e + e - Collisions? elementary particles well-defined –energy,
The ILC Global Design Effort Barry Barish ILC Industrial Forum Japan 28-June-05.

The ILC Global Design Effort Barry Barish ILC Industrial Forum Japan 28-June-05.
5 May 06 SLAC SPC 1 ILC Global Activities GDE, FALC Barry Barish GDE Caltech.

5 May 06 SLAC SPC 1 ILC Global Activities GDE, FALC Barry Barish GDE Caltech.
European Design Study Towards a TeV Linear Collider WP 2 : Beam Delivery System Co-ordinator: Deepa Angal-Kalinin CCLRC, Daresbury Laboratory.

European Design Study Towards a TeV Linear Collider WP 2 : Beam Delivery System Co-ordinator: Deepa Angal-Kalinin CCLRC, Daresbury Laboratory.
Technology Breakthroughs and International Linear Collider Barry Barish AAAS Annual Meeting Washington DC 19-Feb-05.

Technology Breakthroughs and International Linear Collider Barry Barish AAAS Annual Meeting Washington DC 19-Feb-05.
Beam loading compensation 300Hz positron generation (Hardware Upgrade ??? Due to present Budget problem) LCWS2013 at Tokyo Uni., 11-15 Nov. 2013 KEK, Junji.

Beam loading compensation 300Hz positron generation (Hardware Upgrade ??? Due to present Budget problem) LCWS2013 at Tokyo Uni., Nov KEK, Junji.
Demonstration of the Beam loading compensation (Preparation status for ILC beam loading compensation experiments at ATF injector in this September) (PoP.

Demonstration of the Beam loading compensation (Preparation status for ILC beam loading compensation experiments at ATF injector in this September) (PoP.
R. Corsini, CLIC Project Meeting - 24 th May 2013 CTF3 1 CTF3: Highlights of the 1 st run R. Corsini for the CTF3 Team 1.

R. Corsini, CLIC Project Meeting - 24 th May 2013 CTF3 1 CTF3: Highlights of the 1 st run R. Corsini for the CTF3 Team 1.
Test Facilities Sami Tantawi SLAC. Summary of SLAC Facilities NLCTA (3 RF stations, one Injector, one Radiation shielding) – Two 240ns pulse compressor,

Test Facilities Sami Tantawi SLAC. Summary of SLAC Facilities NLCTA (3 RF stations, one Injector, one Radiation shielding) – Two 240ns pulse compressor,
Drive Beam and CTF 3 International Workshop on Linear Colliders 2010 October 22, 2010 Erik Adli, Department of Physics, University of Oslo and CERN Bernard.

Drive Beam and CTF 3 International Workshop on Linear Colliders 2010 October 22, 2010 Erik Adli, Department of Physics, University of Oslo and CERN Bernard.
Summary of AWG4: Beam Dynamics A. Latina (CERN), N. Solyak (FNAL) LCWS13 – Nov 11-15, 2013 – The University of Tokyo, Japan.

Summary of AWG4: Beam Dynamics A. Latina (CERN), N. Solyak (FNAL) LCWS13 – Nov 11-15, 2013 – The University of Tokyo, Japan.
R&D proposals for EuCard 2 EuCard2, April 21Steffen Döbert, BE-RF  SRF basic research (W. Weingarten)  CTF3 and CTF3+, possible infra - structure for.

R&D proposals for EuCard 2 EuCard2, April 21Steffen Döbert, BE-RF  SRF basic research (W. Weingarten)  CTF3 and CTF3+, possible infra - structure for.
UK/EU Plans for ATF2 G.A. Blair ATF2-IN2P3-KEK kick-0ff meeting, Annecy, 8 th October 2006 Overview EUROTeV UK.

UK/EU Plans for ATF2 G.A. Blair ATF2-IN2P3-KEK kick-0ff meeting, Annecy, 8 th October 2006 Overview EUROTeV UK.
J.P.DelahayeE-GDE meeting 10/05/061 CERN non EU contribution to ILC J.P.Delahaye.

J.P.DelahayeE-GDE meeting 10/05/061 CERN non EU contribution to ILC J.P.Delahaye.
International Linear Collider The ILC is the worldwide consensus for the next major new facility. One year ago, the choice was made between the two alternate.

International Linear Collider The ILC is the worldwide consensus for the next major new facility. One year ago, the choice was made between the two alternate.
CLIC Implementation Studies Ph. Lebrun & J. Osborne CERN CLIC Collaboration Meeting addressing the 2012-2016 Work Packages CERN, 3-4 November 2011.

CLIC Implementation Studies Ph. Lebrun & J. Osborne CERN CLIC Collaboration Meeting addressing the Work Packages CERN, 3-4 November 2011.
 High Power RF Systems (352 MHZ - 12 GHz)  High Efficiency Power Sources  High Voltage Systems  High Gradient Accelerating Structures.

 High Power RF Systems (352 MHZ - 12 GHz)  High Efficiency Power Sources  High Voltage Systems  High Gradient Accelerating Structures.
CLIC cost estimate Hans-H. Braun, CLIC-GDE meeting, February 8, 2008  Cost model goals  Methodology  Cost distribution  Future improvements.

CLIC cost estimate Hans-H. Braun, CLIC-GDE meeting, February 8, 2008  Cost model goals  Methodology  Cost distribution  Future improvements.

Similar presentations

Ads by Google