Philip Burrows X-band 2010 Daresbury 2/12/101 Advanced beam feedback systems Philip Burrows John Adams Institute Oxford University.

Slides:



Advertisements
Similar presentations
ATF2: Status Update Glenn Christian (on behalf of FONT group) 10 th ATF Project Meeting.
Advertisements

P.N. Burrows ATF2 Project Meeting, KEK, 14/12/091 Feedback On Nanosecond Timescales Philip Burrows Glenn Christian Hamid Dabiri Khah Javier Resta Lopez.
Testing and Development of Feed-Forward System for ATF2 A. Kalinin Accelerator Science and Technology Centre, Daresbury Laboratory, UK Fifth ATF2 Project.
Philip Burrows CLIC MDI Meeting 6/11/091 Design issues for IP intra-train feedback Philip Burrows John Adams Institute Oxford University.
Philip Burrows ALCPG Workshop, SLAC: BDIR Working Group 08/01/04 Feedback on Nanosecond Timescales (FONT): FONT2 December 2003 run results Philip Burrows.
ATF2 FB/FF layout Javier Resta Lopez (JAI, Oxford University) for the FONT project group FONT meeting January 11, 2007.
FONT4 Status Report Glenn Christian John Adams Institute, Oxford for FONT collaboration.
P.N. Burrows ATF2 Project Meeting, KEK, 18/12/061 Philip Burrows John Adams Institute Oxford University LCABD ATF / ATF2 ESA Miscellaneous FONT.
Some simulation results on FF/FB system for ATF2 Javier Resta Lopez (JAI, Oxford University) for the FONT project group FONT meeting January 25, 2008.
P.N. Burrows GDE/MDI Vancouver 19/7/06 (T-488) Philip Burrows John Adams Institute Oxford University EM Background Tests of Feedback BPM.
P.N. Burrows BDS/MDI, LCWS08 Chicago, 17/11/081 Beam-based feedback for LC ILC luminosity goal 10**34 / cm**2 / s 3000 or 6000 bunches, spacing ns.
Feed forward orbit corrections for the CLIC RTML R. Apsimon, A. Latina.
Progress towards nanometre-level beam stabilisation at ATF2 N. Blaskovic, D. R. Bett, P. N. Burrows, G. B. Christian, C. Perry John Adams Institute, University.
ATF2 Status and Plan K. Kubo ATF2, Final Focus Test for LC Achievement of 37 nm beam size (Goal 1) – Demonstration of a compact final focus.
Philip Burrows Third Mini Workshop on Nano Project, KEK 30/5/05 Philip Burrows Queen Mary, University of London Overview of Intra-train Beam Feedback Program.
1 Feedback On Nanosecond Timescales (FONT): Philip Burrows Neven Blaskovic, Douglas Bett*, Talitha Bromwich, Glenn Christian, Michael Davis, Colin Perry.
FONT IP intra-train feedback prototype status
Philip Burrows LCUK Meeting, Oxford 29/01/04 Feedback on Nanosecond Timescales (FONT): FONT2 run results Dec 03/Jan 04 Philip Burrows Queen Mary, University.
Ground Motion + Vibration Transfer Function for Final QD0/SD0 Cryomodule System at ILC Glen White, SLAC ALCPG11, Eugene March 21, 2011.
ATF2 Javier Resta Lopez (JAI, Oxford University) for the FONT project group 5th ATF2 project meeting, KEK December 19-21, 2007.
Feedback on Nanosecond Timescales (FONT) - Review of Feedback Prototype Tests at ATF(KEK) Glenn Christian John Adams Institute, Oxford for FONT collaboration.
Development of beam-based intra-train feedback systems Glenn B. Christian Post-doctoral Research Assistant on Feedback on Nanosecond Timescales (FONT)
1 FONT Results 2010 Philip Burrows Robert Apsimon, Doug Bett, Glenn Christian Michael Davis, Colin Perry, Javier Resta Lopez John Adams Institute Oxford.
CLIC RTML collimation systems and beam stabilisation R. Apsimon CERN, TE-ABT-BTP ECFA LC2013 at DESY, Hamburg 27 th -31 st May 2013.
Philip Burrows ECFA LC Workshop, Warsaw, 10 June Philip Burrows John Adams Institute Oxford University G. Christian, C. Clarke, B. Constance, H.
NLC Intra-Pulse Fast Feedback Simon Jolly Oxford University NLC Beam Delivery Meeting July 2001.
Feedback On Nano-second Timescales: An IP Feedback System for the Future Linear Collider Requirement for a fast IP beam-based feedback system Simulation.
Feedback On Nanosecond Timescales (FONT): Robert Apsimon, Philip Burrows, Neven Blaskovic, Douglas Bett, Glenn Christian, Michael Davis, Davide Gamba,
Feed forward orbit corrections for the CLIC RTML R. Apsimon, A. Latina.
Feedback On Nanosecond Timescales (FONT): Robert Apsimon, Philip Burrows, Neven Blaskovic, Douglas Bett, Glenn Christian, Michael Davis, Davide Gamba,
3/25/2006 KEK LCPAC Marc Ross - SLAC 1 Results of Beam Instrumentation Studies at ATF 1.Nanometer resolution Beam Position Monitors 2.High resolution readout.
P.N. Burrows ECFA/GDE Meeting, BDIR session, Valencia, 9/11/06 Philip Burrows John Adams Institute Oxford University FONT4 tests at KEK/ATF EM background.
Magnet Motion Produces Luminosity Loss. NLC Feedback Operation Kicker Gain Bunch Charge Measure deflected bunches with BPM and kick other beam to eliminate.
Development of a Low-latency, High-precision, Intra-train Beam Feedback System Based on Cavity Beam Position Monitors N. Blaskovic Kraljevic, D. R. Bett,
Philip Burrows ATF 15/03/05 FONT Group Progress + Plans 2005 Philip Burrows, Christine Clarke, Glenn Christian, Hamid Dabiri Khah, Stephen Molloy, Glen.
1 FONT R&D status Philip Burrows Douglas Bett, Neven Blaskovic, Glenn Christian, Michael Davis, Young Im Kim, Colin Perry John Adams Institute Oxford University.
Philip Burrows ALCPG11, Eugene 21/03/111 Performance of FONT at ATF2 Philip Burrows John Adams Institute Oxford University.
1 FONT IP Feedback System Implications of increase of L* Philip Burrows John Adams Institute Oxford University.
ATF2 Software tasks: - EXT Bunch-Bunch FB/FF - IP Bunch-Bunch FB - FB Integration Status Javier Resta-Lopez JAI, Oxford University FONT meeting 1th August.
Design of the ATF2 FB/FF Systems Javier Resta Lopez (JAI, Oxford University) for the FONT project group Final EUROTeV Scientific Workshop Uppsala, 25-27th.
Philip Burrows ATF2 project meeting 14/1/111 Plans for ATF2 IP Feedback Philip Burrows, Colin Perry John Adams Institute Oxford University.
Design and Simulation of Intra-train Feedback Systems at ATF2: Current Status and Future Plans Javier Resta Lopez (JAI, Oxford University) for the FONT.
Philip Burrows 2 nd Nano Workshop, KEK 11/12/04 Plans for FONT3 and Future Feedback Experiments Philip Burrows Queen Mary, University of London ILC system.
1 Feedback On Nanosecond Timescales (FONT): Philip Burrows Neven Blaskovic, Douglas Bett*, Talitha Bromwich, Glenn Christian, Michael Davis, Colin Perry.
Feedback On Nanosecond Timescales (FONT) Philip Burrows Neven Blaskovic, Douglas Bett*, Talitha Bromwich, Glenn Christian, Michael Davis**, Colin Perry.
1 Feedback On Nanosecond Timescales (FONT): Philip Burrows Neven Blaskovic, Douglas Bett, Glenn Christian, Michael Davis, Young Im Kim, Colin Perry John.
Design of ATF2 feedback/feed-forward systems Javier Resta Lopez (JAI, Oxford University) for the FONT project group LC-ABD meeting Birmingham, 17-18th.
ATF2: Summary of Scheduling Strategy Session Grahame Blair Feedback and Feedforward systems Fast Kicker for ILC bunch train structure Laser-wire Shintake.
Beam Dynamics IR Stability Issues Glen White / SLAC September IRENG07 Vibration tolerances for final doublet cryomodules Settlement of detector.
Summary of Tuning, Corrections, and Commissioning ( Short summary of ATF2 meeting at SLAC in March 2007 ) and Hardware Issues for beam Tuning Toshiyuki.
Philip Burrows ATF2 project meeting 1/07/101 Plans for ATF2 IP Feedback Philip Burrows, Colin Perry John Adams Institute Oxford University.
1 Feedback On Nanosecond Timescales (FONT): Philip Burrows Neven Blaskovic, Douglas Bett, Glenn Christian, Michael Davis, Young Im Kim, Colin Perry John.
1 IP FB tests at ATF2 Philip Burrows Douglas Bett, Neven Blaskovic, Glenn Christian, Michael Davis, Young Im Kim, Colin Perry John Adams Institute Oxford.
G.R.White: F.O.N. T. From Ground Motion studies by A.Seryi et al. (SLAC) ‘Fast’ motion (> few Hz) dominated by cultural noise Concern for structures.
1 Experiments with pulse supplies and strip-lines at ATF, Plans for fast extraction kicker for ATF2 1. Fast Kicker R&D at ATF 2. Instrumentation at ATF.
IoP HEPP/APP annual meeting 2010 Feedback on Nanosecond Timescales: maintaining luminosity at future linear colliders Ben Constance John Adams Institute,
Overview of progress at FONT Neven Blaskovic TMD technologies CASE student John Adams Institute Oxford University.
FONT4 Status Report Glenn Christian John Adams Institute, Oxford for FONT collaboration.
1 FONT IP FB Philip Burrows Robert Apsimon, Doug Bett, Neven Blaskovic, Glenn Christian, Michael Davis, Colin Perry John Adams Institute Oxford University.
Feedback On Nanosecond Timescales (FONT) Philip Burrows Neven Blaskovic, Talitha Bromwich, Glenn Christian, Colin Perry, Rebecca Ramjiawan John Adams Institute,
Fast Beam Collision Feedbacks for luminosity optimisation at next-generation lepton colliders Philip Burrows John Adams Institute Oxford University.
Dither Luminosity feedback versus Fast IP feedback
In collaboration with P. N. Burrows, A. Latina and D. Schulte
For Discussion Possible Beam Dynamics Issues in ILC downstream of Damping Ring LCWS2015 K. Kubo.
Transverse Beam Jitter Propagation in Multi-bunch Operation at ATF2
CLIC Drive Beam Stabilisation
Progress towards nanometre beam stabilisation at ATF2
Intra-Pulse Beam-Beam Scans at the NLC IP
Progress towards nanometre level beam stabilisation
Feed forward orbit corrections for the CLIC RTML
Presentation transcript:

Philip Burrows X-band 2010 Daresbury 2/12/101 Advanced beam feedback systems Philip Burrows John Adams Institute Oxford University

Philip Burrows X-band 2010 Daresbury 2/12/102 Outline Brief reminder of intra-train beam feedback system concept Designs for future linear colliders Prototype hardware development (FONT systems) Other applications Summary

Philip Burrows X-band 2010 Daresbury 2/12/103 LC intra-train feedback system - concept Last line of defence against relative beam misalignment Measure vertical position of outgoing beam and hence beam-beam kick angle Use fast amplifier and kicker to correct vertical position of beam incoming to IR FONT – Feedback On Nanosecond Timescales (Oxford, Valencia, CERN, DESY, KEK, SLAC)

Philip Burrows X-band 2010 Daresbury 2/12/104 Feedback On Nanosecond Timescales Beam-based FB R&D for future Linear Colliders Philip Burrows Glenn Christian Hamid Dabiri Khah Javier Resta Lopez Colin Perry Graduate students: Christina Swinson Ben Constance Robert Apsimon Douglas Bett Alexander Gerbershagen Michael Davis Valencia, CERN, DESY, KEK, SLAC

Philip Burrows X-band 2010 Daresbury 2/12/105 General considerations (1) 1. IP position feedback: hardware located near IP kicker at 90 degrees w.r.t. IP 2. IP angle feedback: hardware ideally located near IP kicker in phase w.r.t. IP 3. Additional possible inputs: fast luminosity signal (from BEAMCAL) information from alignment systems (eg. QD0 etc.) ‘feed-forward’ information from upstream in machine (eg. DR) …

Philip Burrows X-band 2010 Daresbury 2/12/106 General considerations (2) Time structure of bunch train: ILC (500 GeV): c bunches w. c. 300 ns separation CLIC (3 TeV): c. 300 bunches w. c. 0.5 ns separation Feedback latency: ILC: O(100ns) latency budget allows digital approach CLIC: O(10ns) latency requires analogue approach Recall speed of light: c = 30 cm / ns: FB hardware should be close to IP (especially for CLIC!)

Philip Burrows X-band 2010 Daresbury 2/12/107 IP position feedback latency Latency: 1. Beam flight time IP  BPM 2. Signal processing, FB calculation 3. Amplifier + kicker response time 4. Cable delays 5. Beam flight time kicker  IP

Philip Burrows CLIC Technical Committee 23/02/108 ILC Reference Design Report 1. IP position feedback: provide IP beam position correction at sigma_y level i.e nm of vertical beam motion at IP 2. IP angle feedback: hardware located few 100 metres upstream conceptually very similar to position FB, (arguably) less critical 3. Bunch-by-bunch luminosity signal (from BEAMCAL) ‘special’ systems requiring dedicated hardware + data links

P.N. Burrows Project Review, Oxford, 11/12/099 ILC IP intra-train FB performance

Philip Burrows X-band 2010 Daresbury 2/12/1010 ILC IR: SiD for illustration Door SiD Cavern wall Oriunno

Philip Burrows X-band 2010 Daresbury 2/12/1011 Spool tubes Reacting bars QF QD0 Cam/support Final Doublet Region (SiD for illustration) Oriunno

Philip Burrows X-band 2010 Daresbury 2/12/1012 Spool tubes Reacting bars QF QD0 Cam/support Final Doublet Region (SiD for illustration) Oriunno

Philip Burrows CLIC Technical Committee 23/02/1013 First CLIC conceptual design

Philip Burrows X-band 2010 Daresbury 2/12/1014 ECal end-capHCal end-capYoke end-cap (partial) LumiCalBeamCalQD0 (partial) CLIC: ILD for illustration Sailer Nov. 2009

Philip Burrows X-band 2010 Daresbury 2/12/1015 ECal end-capHCal end-capYoke end-cap (partial) LumiCalBeamCalQD0 (partial) CLIC: ILD for illustration Sailer Nov. 2009

Philip Burrows X-band 2010 Daresbury 2/12/ Dec th MDI meeting H.Gerwig Herve 12/2/10 CLIC: zoom-in to QD0

Philip Burrows X-band 2010 Daresbury 2/12/1017 Prototyping status

Philip Burrows X-band 2010 Daresbury 2/12/1018 KickerBPM 1 Feedbac k processo r Analogue BPM processor Drive amplifier BPM 2 BPM 3 e- Generic prototype layout

Philip Burrows X-band 2010 Daresbury 2/12/1019 CLIC-relevant: all-analogue systems Brief prototype history: CLIC

Philip Burrows X-band 2010 Daresbury 2/12/1020 KickerBPM 1 Analogu e feedback Analogue BPM processor Drive amplifier BPM 2 BPM 3 e- Generic prototype layout: CLIC

Philip Burrows X-band 2010 Daresbury 2/12/1021 CLIC-relevant: all-analogue systems NLCTA (SLAC): 65 MeV beam, 170ns train, 87ps bunch spacing FONT1 (2001-2): First demonstration of closed-loop FB: latency 67ns 10/1 beam position correction FONT2 (2003-4): Improved demonstration of FB: latency 54ns real time charge normalisation with logarithmic amplifiers beam flattener to straighten train profile solid-state amplifier ATF (KEK): 1.3 GeV beam, 56ns train, 2.8ns bunch spacing FONT3 (2004-5): Ultra-fast demonstration of FB: latency 23 ns 3 stripline BPMs high-power solid-state amplifier Brief prototype history: CLIC

Philip Burrows X-band 2010 Daresbury 2/12/1022 FONT2 beamline installation at SLAC NLCTA (65 MeV 170ns-long 87ns spacing) Dipole and kickers BPMs

Philip Burrows X-band 2010 Daresbury 2/12/1023 FONT: kicker driver amplifiers FONT1 3-stage tube amplifier FONT3 PCB amplifer + FB Same drive power as needed for CLIC

Philip Burrows X-band 2010 Daresbury 2/12/1024 FONT2 results Feedback on Beam flattener on Beam starting positions Delay loop on beam startbeam end 123 4

Philip Burrows X-band 2010 Daresbury 2/12/1025 CLIC-relevant: all-analogue systems FONT2 (2003-4): latency 54ns would allow about 2 correction passes for CLIC 150ns train Brief prototype history: CLIC

Philip Burrows X-band 2010 Daresbury 2/12/1026 FONT3: latency budget Time of flight kicker – BPM: 4ns Signal return time BPM – kicker: 6ns Irreducible latency: 10ns BPM processor: 5ns Amplifier + FB: 5ns Electronics latency: 10ns Total latency budget: 20ns Allows 56/20 = 2.8 periods during bunchtrain

Philip Burrows X-band 2010 Daresbury 2/12/1027 Fast analogue signal processors

Philip Burrows X-band 2010 Daresbury 2/12/1028 FONT3: kicker driver amplifier Same drive power as needed for CLIC

Philip Burrows X-band 2010 Daresbury 2/12/1029 FONT3: BPM processor + amplifier/feedback installation in ATF beamline BPM processor board Amplifier/FB board FEATHER kicker

Philip Burrows X-band 2010 Daresbury 2/12/1030 FONT3: Beamline Installation

Philip Burrows X-band 2010 Daresbury 2/12/1031 FONT3: Results (June 2005) : Delay-loop feedback w. latency 23 ns 56ns bunchtrain FB on FB + delay loop on 23ns 200um

Philip Burrows X-band 2010 Daresbury 2/12/1032 CLIC prototype: Summary 67 ns 54 ns 23 ns

Philip Burrows X-band 2010 Daresbury 2/12/1033 CLIC-relevant: all-analogue systems FONT3 (2005): total latency 23ns, of which 13ns electronics translates to about 37ns at CLIC would allow about 3 correction passes for CLIC 150ns train basic principle demonstrated: more work needed to optimise design + system performance. Brief prototype history: CLIC

Philip Burrows CLIC Technical Committee 23/02/1034 Beam tracking simulations (Javier Resta Lopez) Macroparticle tracking through the BDS using the code PLACET Luminosity calculation using the code Guinea-Pig Ground motion: –In the following simulations we apply 0.02 s (corresponding to f rep =50 Hz) of GM (A. Seryi’s models) to the CLIC BDS –What is the RMS vertical beam-beam offset at the IP we have to deal with?  Simulation of 100 random seeds:

Philip Burrows CLIC Technical Committee 23/02/1035 Luminosity performance with IP FB Simulation time structure: Example applying a single random seed of GM C

Philip Burrows CLIC Technical Committee 23/02/1036 CLIC luminosity result with IP FB For quiet sites: The generated IP-jitter is relatively small after 0.02 s of GM Model A: Without any correction: mean  L/L 0  train =99.88% With IP-FB: mean  L/L 0  train =99.97% std reduced by a factor 2 Model B: Without any correction: mean  L/L 0  train =91.1% With IP-FB: mean  L/L 0  train =97.86% std reduced by a factor 4

Philip Burrows CLIC Technical Committee 23/02/1037 For noisy sites: In these cases significant luminosity degradation Model C: Without any correction: mean  L/L 0  train =30.52% & High standard deviation! With IP-FB: mean  L/L 0  train =64.15% std reduced by a factor 2 Model K: Without any correction: mean  L/L 0  train =32.53% & High standard deviation! With IP-FB: mean  L/L 0  train =67.82% std reduced by a factor 3 CLIC luminosity result with IP FB

Philip Burrows X-band 2010 Daresbury 2/12/1038 ILC-relevant: digital feedback processor Brief prototype history: ILC

Philip Burrows X-band 2010 Daresbury 2/12/1039 KickerBPM 1 Digital feedback Analogue BPM processor Drive amplifier BPM 2 BPM 3 e- Generic prototype layout: ILC

Philip Burrows X-band 2010 Daresbury 2/12/1040 ILC-relevant: digital feedback processor ATF (KEK): 1.3 GeV beam, 3-bunch train, bunch spacing c. 150ns FONT4 / ATF (2006-9): First digital system (Virtex 4): latency 148 ns high-power solid-state amplifier (pulse length up to 10us) FONT5 / ATF2 ( ): Faster system (Virtex 5): latency 133 ns coupled-loop system correction of y and y’ 3 BPMs and 2 kickers Brief prototype history: ILC

Philip Burrows X-band 2010 Daresbury 2/12/1041 KickerBPM 1 Digital feedback Analogue BPM processor Drive amplifier BPM 2 BPM 3 e- FONT4 ILC prototype at KEK/ATF

Philip Burrows X-band 2010 Daresbury 2/12/1042 FONT4 basic operation demonstrated in 2008 running: FONT4 results

Philip Burrows X-band 2010 Daresbury 2/12/1043 FONT4 basic operation demonstrated in 2008 running: beam feedback along single axis (y) with few micron resolution FONT4 results

Philip Burrows X-band 2010 Daresbury 2/12/1044 FONT5 location

Philip Burrows X-band 2010 Daresbury 2/12/1045 Flexible operation mode QD10XQF11XQD12XQD14XQF13XQF15XK1K2 P2P3P1 To dump FB board DAQ P2  K1 (‘position’) P3  K2 (‘angle’) P3  K1

Philip Burrows X-band 2010 Daresbury 2/12/1046 FONT5 hardware 3 new BPMs and 2 new kickers installed in new ATF2 extraction line February 2009

Philip Burrows X-band 2010 Daresbury 2/12/1047 Valencia FONT BPM movers

6 New FONT5 digital FB board Xilinx Virtex5 FPGA 9 ADC input channels (TI ADS5474) 4 DAC output channels (AD9744) Clocked at 357 MHz phase-locked to beam 4x faster than FONT4

Philip Burrows X-band 2010 Daresbury 2/12/1049 One damping ring cycle (463ns) data returned each pulse: RS232 over ethernet All BPM sum (charge) and difference signals Absolute sample time adjustable in 70ps taps: accurate peak sampling Ratio of difference to sum peaks gives y-position Pedestal subtraction w. on-board trim DACs (no latency gain) FONT5 DAQ

6 FONT5 latency: P2  K1 loop (February 2010) Latency 133ns

Philip Burrows X-band 2010 Daresbury 2/12/1051 Latency estimate

6 P2  K1 loop performance (February 2010) With banana correction

6 P2  K1 loop performance (February 2010) Incoming position scan

P2  K1 loop jitter reduction (April 2010) Bunch 1 Bunch 2 Bunch um  0.4 um  0.8 um Factor of 5 jitter reduction

Philip Burrows JAI Advisory Board, RHUL 26/04/ micron jitter propagation from P2 P2 Y [micron]

Philip Burrows JAI Advisory Board, RHUL 26/04/1056 Jitter comparison at IP 4 Counts Assuming perfect lattice, no further imperfections (!)

Philip Burrows JAI Advisory Board, RHUL 26/04/1057 FB correction vs. gain (April 2010)

6 Feedback removes bunch correlations (April 2010) Bunch 1 Bunch 2 Bunch 3

Bunch correlations vs. gain (April 2010) Bunch 1-2 Correl.

Philip Burrows JAI Advisory Board, RHUL 26/04/1060 FB simulation: P2-K1+P3-K2 coupled Bunch 1 Bunch 2

Coupled loop jitter reduction (May 2010) Bunch 1 Bunch 2 Bunch um  5.6 um  4.4 um

Philip Burrows X-band 2010 Daresbury 2/12/1062 Summary IP feedback concept well advanced Conceptually-engineered designs for ILC + CLIC All-analogue prototypes (CLIC) developed and tested at NLCTA + ATF:  electronics latency c. 13ns Digital prototypes developed and tested at ATF + ATF2:  electronics latency c. 90ns To do: real engineering + component optimisation radiation hardness, EM interference …

Philip Burrows JAI Advisory Board, RHUL 26/04/1063 Other CLIC possibilities Fast amplifier prototype for drive beam phase instability feed-forward system: 10 deg capture range  0.2 deg phase stability +-375urad max. beam deflection very serious thought and R&D needed prototyping and tests at CTF3?

Philip Burrows JAI Advisory Board, RHUL 26/04/1064 CLIC drive beam phase FF

A Preliminary System Concept 65C.Perry – Oxford – 15 Oct kickers at each bend - 250kW peak power amplifier to each kicker amplifier modules in each amplifier - 1.2kW output each amplifier module (1kW after losses in combining etc) - 16 amplifiers & kickers / drive beam, 768 amplifiers total, 200MW total peak power dipole magnet 1m kicker 250kW amp 8m5m 8m NOT TO SCALE

Philip Burrows CLIC Technical Committee 23/02/1066 FONT3: Results (June 2005) 40 pulses per position setting

Philip Burrows JAI Advisory Board, RHUL 26/04/1067 Example: BPM calibrations

6 Example: kicker calibration Kick of 40 urad

Philip Burrows X-band 2010 Daresbury 2/12/ Dec th MDI meeting H.Gerwig Herve 22/2/10 CLIC: zoom-in to QD0

Philip Burrows X-band 2010 Daresbury 2/12/ Dec th MDI meeting H.Gerwig Herve 22/2/10 CLIC: zoom-in to QD0

Philip Burrows CLIC Technical Committee 23/02/1071 Luminosity results summary SVD orbit correction BPM resolution ~100 nm Simulate effect of IP feedback and slow orbit FB in BDS

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2024 SlidePlayer.com Inc. All rights reserved.