Superconducting final doublet Support A.Jeremie. SC magnet steps Motivation: have an active stabilisation as planned in ILC and CLIC => need to evaluate.

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Presentation transcript:

Superconducting final doublet Support A.Jeremie

SC magnet steps Motivation: have an active stabilisation as planned in ILC and CLIC => need to evaluate the usefulness of an active system at ATF2 /Benoit’s work plan/soon at KEK LAPP/CERN/LAL/KEK Need a magnet: – Test it with cryogenics/ B.Parker/ BNL/ soon – Measure vibrations with seismic and laser interferometry of cold mass mouvmt. LAPP/CERN / at BNL? When magnet ready/ Oxford (Urner) at BNL? – Identify vibration sources like GM, cryolines, acoustic LAPP/CERN / at BNL? When magnet ready Design support: – With stabilisation/isolation LAPP/BNL – Cryoline isolation CERN – With compensation (multisensor/multicatuator vs single sensor/single actuator) LAPP/UDS How many FD magnets in same cryostat? LAL/CERN/LAPP… Already achieved 0.13nm rms at 4Hz combining commercial isolation “x10”(CLIC table) and “single” compensation”x3” but in laboratory on a mock-up not in accelerator environment From 7th ATF2 project December 2008

FD stabilisation with larger L* Technically FD support can be moved anywhere Current assumption: ground motion coherence length of 4m (Benoît will show new measurements at future ATF2 meeting), so QF1 and IP should not be separated by more than 4m If active stabilisation is implemented, then coherence is lost between IP and FD, so no more separation issue => Shintake monitor also on active stabilisation?

(beware, here the sextupole and quadrupole are in reverse order…this is just to give an idea of the dimensions) If rigid support chosen: keep one mover or two (how is one object controlled by 2 movers?), or none? If active stabilisation chosen: 2 options studied that could be applied to ATF2 Max weight possible on table: 2260kg Current weight on table: 1180kg If replace QD0+SD0 (or QD1+QF1) by SC magnets, total weight: 1080kg Cryogenic fluids:? Still free for Cryogenics system: 1180kg SC magnet support

Cantilever option FF stabilisation studies CERN TMC active table for isolation (active and passive layers in feet)  The two first resonances entirely rejected  Achieved integrated rms of 0.13nm at 5Hz LAPP active system for resonance rejection Isolation Resonance rejection (L.Brunetti et al, 2007) 2.5m FF Al mock-up But some study needs to continue on appropriate sensors

2 feet option CLIC MB linac Q Actuators positions Combine passive and active layers Results expected in Elastomer in groove

Some comments and questions GM generator updated for simulation (B.Bolzon 8th Project meeting); FF magnets do not need stabilisation Need vibration simulations of the SC-Q inside cryostat. Vibration measurements (before sending to KEK?) on SC-Q and cryostat to correlate simulations and measurements Are the stability requirements the same as for initial ATF2 : 6-7nm and because we add beam-based feedback (up to what frequency?), can we relax to 50nm? Does the 50nm come from a physical limit and we work in degraded mode? If temperature variations cause low-frequency vibrations, shouldn’t they be compensated by beam-based feedback? => Need to understand the vibration requirements

Tomaru-san “face to face” meeting 24/11/2009

Support requirements In order to have low relative displacement between FD and IP, we need to push the resonance peaks to higher frequency (if possible above 100Hz). Current support: rigid support => take advantage of the 4m coherence length and “rigid” vibration behaviour of the components=> fixed table 90Hz, mover+magnet 75Hz, very small (if any) influence of cooling water effect on vibrations. What is the first resonance peak of SC-Q and cryostat? Can we do something if it is very low? Cryomeasurements done by DESY show peaks between 10-30Hz from support and not from inside module. Cryostat support rocking and resonance Vacuum pump EPAC2008 WEPMN009

Does the support study need ATF2? Test SC-Q with cryogenics must be done outside ATF2 first but also at KEK with final cryogenics Simulations and vibration measurements can be done elsewhere => need this to decide for/against active stabilisation Identify vibration sources like GM, cryolines, acoustics need to be done in accelerator environment: ATF2 If we keep rigid support, then ATF2 is good since it is already in place. If we need stabilisation, better elsewhere first in a quiet place. Later put in accelerator environment: ATF2.

Does the support study need ATF2? Test SC-Q with cryogenics must be done outside ATF2 first but also at KEK with final cryogenics Simulations and vibrations measurements can be done elsewhere by BNL=> need this to decide for/against active stabilisation Identify vibration sources like GM, cryolines, acoustics need to be done in accelerator environment: ATF2 If we keep rigid support, then ATF2 is good since it is already in place. If we need stabilisation, better elsewhere first in a quiet place. Later put in accelerator environment: ATF2. Plan for 2010

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