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Development of a low-latency, high-precision, beam-based feedback system based on cavity BPMs at the KEK ATF2
DOI:
10.18429/JACoW-IPAC2018-WEPAL025
Authors:
D. R.
Bett
(John Adams Institute)
,
R. M.
Bodenstein
(John Adams Institute)
,
T.
Bromwich
(John Adams Institute)
,
P. N.
Burrows
(John Adams Institute)
,
C.
Perry
(John Adams Institute)
,
R.
Ramjiawan
(John Adams Institute)
,
N.
Blaskovic Kraljevic
(CERN)
,
G. B.
Christian
(Diamond Light Source)
Co-authored by industrial partner:
No
Type:
Conference Paper
Conference:
9th International Particle Accelerator Conference IPAC2018
Peer Reviewed:
No
State:
Published (Approved)
Published:
June 2018
Abstract: A low-latency, intra-train feedback system employing cavity beam position monitors (BPMs) has been developed and tested at the Accelerator Test Facility (ATF2) at KEK. The feedback system can be operated with either position information from a single BPM to provide local beam stabilisation, or by using position information from two BPMs to stabilise the beam at an intermediate location. The correction is implemented using a stripline kicker and a custom power amplifier, with the feedback calculations being performed on a digital board built around a Field Programmable Gate Array (FPGA). The addition of indium sealing to the BPMs to increase the cavities' Q-values has led to improvements to the BPM system resolution, with current measurements of the resolution of order 20 nm. The feedback performance was tested with beam trains of two bunches, separated by 280 ns and with a charge of ~1 nC. For single- (two-)BPM feedback, stabilisation of the beam has been demonstrated to below 50 nm (41 nm). Ongoing work to improve the feedback performance further will be discussed.
Subject Areas:
Engineering
Facility: KEK
Added On:
15/11/2018 14:03
Documents:
wepal025.pdf
Discipline Tags:
Engineering & Technology
Technical Tags: