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Feedback On Nanosecond Timescales (FONT) Philip Burrows Neven Blaskovic, Talitha Bromwich, Glenn Christian, Colin Perry, Rebecca Ramjiawan John Adams Institute,

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Presentation on theme: "Feedback On Nanosecond Timescales (FONT) Philip Burrows Neven Blaskovic, Talitha Bromwich, Glenn Christian, Colin Perry, Rebecca Ramjiawan John Adams Institute,"— Presentation transcript:

1 Feedback On Nanosecond Timescales (FONT) Philip Burrows Neven Blaskovic, Talitha Bromwich, Glenn Christian, Colin Perry, Rebecca Ramjiawan John Adams Institute, Oxford University in collaboration with: KEK, KNU, LAL Progress towards electron-beam feedback at the nanometre level, for linear colliders and FELs, at the KEK/ATF2

2 2 Outline ILC + CLIC luminosity requirements Interaction-point beam collision feedbacks Feedback system prototyping at ATF/ATF2 Summary

3 3 Compact Linear Collider (CLIC) 1.5 TeV / beam

4 International Linear Collider (ILC) 31 km c. 250 GeV / beam 4

5 5 LC beam parameters ILC 500 CLIC 3 TeV Electrons/bunch 2 0.37 10**10 Bunches/train 1312 312 Bunch separation 554 0.5ns Train length727 0.156us Train repetition rate 5 50Hz Horizontal IP beam size474 40nm Vertical IP beam size 6 1nm Longitudinal IP beam size300 44um Luminosity 2 6 10**34

6 6 LC beam parameters ILC 500 CLIC 3 TeV Electrons/bunch 2 0.37 10**10 Bunches/train 1312 312 Bunch separation 554 0.5ns Train length727 0.156us Train repetition rate 5 50Hz Horizontal IP beam size474 40nm Vertical IP beam size 6 1nm Longitudinal IP beam size300 44um Luminosity 2 6 10**34

7 7 LC beam parameters ILC 500 CLIC 3 TeV Electrons/bunch 2 0.37 10**10 Bunches/train 1312 312 Bunch separation 554 0.5ns Train length727 0.156us Train repetition rate 5 50Hz Horizontal IP beam size474 40nm Vertical IP beam size 6 1nm Longitudinal IP beam size300 44um Luminosity 2 6 10**34

8 8 LC beam parameters ILC 500 CLIC 3 TeV Electrons/bunch 2 0.37 10**10 Bunches/train 1312 312 Bunch separation 554 0.5ns Train length727 0.156us Train repetition rate 5 50Hz Horizontal IP beam size474 40nm Vertical IP beam size 6 1nm Longitudinal IP beam size300 44um Luminosity 2 6 10**34

9 LC IP beam feedback 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: Robert Apsimon, Neven Blaskovic Kraljevic, Douglas Bett, Ryan Bodenstein, Talitha Bromwich, Philip Burrows, Glenn Christian, Christine Clarke, Ben Constance, Michael Davis, Tony Hartin, Young Im Kim, Simon Jolly, Steve Molloy, Gavin Neson, Colin Perry, Rebecca Ramjiawan, Javier Resta Lopez, Christina Swinson

10 10 General considerations Time structure of bunch train: ILC (500 GeV): c. 1300 bunches w. c. 500 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!) Two systems, one on each side of IP, allow for redundancy

11 11 ILC IR: SiD for illustration Door SiD Cavern wall

12 12 ILC IR: SiD for illustration Door SiD Cavern wall

13 13 Final Doublet Region (SiD)

14 14 Final Doublet Region (SiD)

15 15 IP kicker detail (SiD)

16 16 Final Doublet Region (SiD)

17 IP FB BPM detail (SiD) Tom Markiewicz, Marco Oriunno, Steve Smith e- beam in e+ beam out

18 18 ILC IP FB performance (TDR)

19 CLIC Final Doublet Region (CDR) 19

20 CLIC Final Doublet Region (CDR) 20

21 CLIC Final Doublet Region (CDR) 21

22 22 CLIC IP FB performance (CDR) Single random seed of GM C

23 ATF2/KEK 23

24 FONT5 ‘intra-train’ feedbacks ATF2 extraction line 24

25 25 FONT5 ‘intra-train’ feedbacks

26 26 kickerBPMs FONT digital FB BPM electronics FONT amplifier e- ILC-style IPFB loop schematic ATF2: 3-bunch train Bunch interval 154ns Measure bunch-1 vertical position Correct bunch-2 and bunch-3 positions

27 Upstream FONT5 System Analogue Front-end BPM processor FPGA-based digital processor Kicker drive amplifier Stripline BPM with mover system Strip-line kicker Beam

28 Stripline BPMs 28 154ns Excellent temporal resolution

29 BPM spatial resolution 29 Resolution = 291 +- 10 nm (Q ~ 1nC),  meets ILC + CLIC requirements

30 Latency: <154 ns  meets ILC requirements FB system latency Kick to bunch 2

31 Max. kick = 75 um (1.3 GeV) = 400 nm (ILC 250 GeV beam) = 66 σ y (ILC 250)  meets ILC requirement of 50 σ y FB system dynamic range Kick to bunch 2

32 Trajectory scan vertical beam position

33 Operational jitter correction Normal operations: 2um jitter  500nm Deliberately enhanced jitter: 14um jitter  500nm

34 34 Summary Advanced designs for intra-train beam feedbacks for ILC and CLIC Simulations show excellent potential to meet ILC + CLIC design luminosities Prototypes tested at ATF with multi-bunch beam Digital FB meets ILC requirements in terms of: BPM resolution system latency beam-correction dynamic range Routinely stabilise 1.3 GeV beam to sub-um level Applicable to single-pass e- beamlines eg. FELs

35 35 Summary – not presented Tested all-analogue FB system that meets CLIC IP FB requirements for latency + drive ATF2 coupled-loop FB system for y + y’ correction  extrapolated performance ~ 4 nm at IP Single-beam ATF2 IP FB based on cavity BPMs  direct beam stabilisation < 70nm at IP Issue at ATF2 is how to measure directly the beam position at nm level … … not relevant for ILC+CLIC because beam-beam deflection provides O(100um) signal input to IP FB

36 Backup slides

37 37 KickerBPM 1 Analogue BPM processor BPM 2 BPM 3 e- CLIC prototype: FONT3 at KEK/ATF Electronics latency ~ 13ns Drive power > 50nm @ CLIC

38 38 ATF2 design parameters

39 Random jitter source Random jitter introduced pulse-to-pulse using ZVFB1X & ZVFB2X ECFA LC2016 39 from Y. Kano

40 FONT5 digital FB board Xilinx Virtex5 FPGA 9 ADC input channels (TI ADS5474) 4 DAC output channels (AD9744) Clocked at up to 400 MHz (phase-locked to beam)

41 41 FONT4 amplifier, outline design done in JAI/Oxford Production design + fabrication by TMD Technologies Specifications: +- 15A (kicker terminated with 50 Ohm) +- 30A (kicker shorted at far end) 35ns risetime (to 90%) pulse length 10 us repetition rate 10 Hz FONT4 drive amplifier

42 BPM readout 42

43 BPM signal processing 43

44 BPM signal processor 44

45 Stabilising beam near IP 1. Upstream FB: monitor beam at IP 2. Feed-forward: from upstream BPMs  IP kicker 3. Local IP FB:using IPBPM signal and IP kicker

46 46 FONT5 system performance Bunch 1: input to FB FB off FB on Bunch 2: corrected FB off FB on

47 47 Time sequence Bunch 2: corrected FB off FB on

48 48 Jitter reduction Factor ~ 3.5 improvement

49 49 Predicted jitter reduction at IP FB off FB on y y’

50 50 Predicted jitter reduction at IP Predict position stabilised at few nanometre level… How to measure it?!

51 51 IP cavity BPM system

52 52 Low-Q cavity BPMs Design parameters

53 53 Cavity BPM signal processing I  I’ Q  Q’ bunch charge Honda

54 54 Jitter vs. QD0FF setting (waist scan) minimum jitter: 49 nm (integration)

55 Interaction Point FONT System Analogue Front-end BPM processor FPGA-based digital processor Kicker drive amplifier Strip-line kicker Beam Cavity BPM

56 56 IPFB results Bunch 1: not corrected, jitter ~ 400nm Bunch 2: corrected, jitter ~ 67nm Corrected jitter 67nm  resolution 47nm

57 57 IPFB results: time sequence

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