CLEX (CLIC Experimental Area) Status and plans G.Geschonke for Hans Braun CERN CT3 coll meetg 2005 CLEX 1
CT3 objectives R1.1 CLIC accelerating structure, R1.2 rive beam scheme with a fully loaded linac R1.3 Power- Extraction Structure (PETS) R2.1 stability and losses in the drive beam decelerator, R2.2 Test of a relevant linac subunit with beam 3.5 A - 2100 b of 2.33 nc 150 MeV - 1.4 μs rive Beam Accelerator R2.1 CLEX HG test Stand Two-beam TBL test stand Relevant Probe Beam linac subunit R2.2 CT3 coll meetg 2005 CLEX R1.1 R1.3 x2 elay loop 42 m X 5 Combiner Ring 84 m R1.2 35 A - 150 MeV 140 ns 2
CT3 programme Thermionic gun 2004 2005 Linac L CR 2006 Photo injector / laser tests from 2006 CLEX 2007-2009 building in 2006 TL2 2007 30 GHz production (PETS line) and test stand CT3 coll meetg 2005 CLEX 3
CLEX existing building 40 m 6 m UMP UMP UMP UMP UMP Instrumentation Test beam TBL 30 GHz Test stand UMP 1m wide passage all around LIL-ACS LIL-ACS Probe beam injector UMP 2 m 8 m Construction during 2006 installation of equipment from 2007-2009 CT3 coll meetg 2005 CLEX 4
Transfer Line TL2 TL2 : Transfer Line Match twiss Parameters Bunch compressor Vertical displacement (floor in CLEX 50 cm lower) CT3 coll meetg 2005 CLEX 5
Transfer Line TL2 Preliminary design from LN Expression of interest and additional design studies from CAT/Indore Sufficient number of quadrupoles and sextupoles already available? Bend magnet design (CERN) Matching to required Twiss parameters in CLEX from quads in bunch compressor and in straights (x = `x = y = `y = 0) CLEX beam axis x = `x = y = `y = 0 Beam dump? inal horizontal displacement, bunch compression with tunable R56 CR beam axis Somewhere 0.8 in this m length: Vertical displacement, achromatic system (small positive R56) Straight space for tail clipper ( ~ 4m) CT3 coll meetg 2005 CLEX H. displacement, achromatic system (small positive R56) 6
CLEX building CT3 coll meetg 2005 CLEX 7
CLEX building Building Status Inside dimensions specified to be 40 x 8 x 2.75 m No pillars inside building! Preliminary construction design and cost estimate completed raft specification for infrastructure requirements (electricity, cooling, ventilation, ~700 kw electrical power dissipated in various components) Equipment gallery 20 x 8 x 3.55 m Schedule Construction finished by end 2006 CT3 coll meetg 2005 CLEX 8
loor and Beamline Heights ue to difference in construction technique CLEX floor is 50 cm lower than combiner ring building and B Linac building Beam height above floor B Linac, delay loop, TL1 and combiner ring 135 cm 135 cm + 50 cm=185 cm seems to much Vertical bends needed in TL2 Beam height drive beam in CLEX 135 cm Probe beam at 125 cm to allow crossing of beam lines? What s best for two beam test stand? CLEX 50cm B Linac CT3 coll meetg 2005 CLEX 9
CLEX gallery Enough space for all power supplies, vacuum, controls and beam diagnostics racks needed for CLEX beam lines Space for two S-band modulators and klystrons for probe beam Neighboring CT2 gallery has space for one or two more modulators and klystrons and for more electronic racks (i.e. for 30 GHz receivers for two beam test stand and drive beam test beam line) LIL Galery CT2 Galery 1.5 1 Racks 0.6x0.9m 2.3m 1.3 1 1.3 1 1.3 1.3 1.3 5.8m Modulator Modulator 2.4m 8 m 20 m arrangement of racks and modulators in CLEX-G CT3 coll meetg 2005 CLEX 10
CLEX gallery Equipment type Number of racks Magnet power supplies 27 Ion pump power supplies 5 Vacuum gauges, valves and interlock controls 4 Low power 3 GHz R 4 Modulator mains distribution 2 Controls, beam diagnostics, timing 3 Total racks 45 CT3 coll meetg 2005 CLEX 11
Power dissipation [kw] emineralised water Stabilised water Air condition / ventilation CLEX-A CLEX-G CLEX-A CLEX-G CLEX-A CLEX-G Magnets 400 12 50 3 GHz Modulators, Pulse compression and structures 4 93 20 2 30 30 GHz structures 3 Beam dumps 4 Ambient light 2 1 VME crates 6 40 ion pumps 1 3 8 turbo pumps 6 1 Vacuum bake-out 10 10 Miscellaneous 20 20 Total 404 93 23 2 55 121 Grand total 497 25 176 CT3 coll meetg 2005 CLEX 12
Electrical power requirement CLEX-A CLEX-G Magnets 462 3 GHz Modulators, Pulse compression and structures 120 Ambient light 2 1 VME crates 6 40 ion pumps 4 8 turbo pumps 6 1 Bake out equipment 10 Miscellaneous 20 20 Total 38 614 Grand total 652 CT3 coll meetg 2005 CLEX 13
Beam-Lines Probe beam Preliminary design from APNIA & LAL Problems: overall length, beam loading, laser configuration TBL Preliminary design for quadrupole magnets (CERN) transferred to CIEMAT esign of support tables with X/Y movers / CIEMAT esign considerations for PETS (I. Syratchev and. Schulte, PAC 05), CIEMAT BLM s NWU Chicago Expression of interest for BPM s by IIC and TU Barcelona Two beam test stand Uppsala University ITB draft proposal from John Adams Institute UMP UMP UMP UMP ITB UMP TBL 30 GHz Test stand UMP CT3 coll meetg 2005 CLEX LIL-ACS 1m wide passage all around Probe beam injector UMP LIL-ACS 14
Conclusion Building design well advanced construction in 2006 (Christmas celebration in new building) Start installation in 2007 more collaboration required CT3 coll meetg 2005 CLEX 15