Compensation of orbit distortion due to quadrupole motion using feed-forward control at KEK ATF

The high luminosity requirement for a future linear collider sets a demanding limit on the beam quality at the Interaction Point (IP). One potential source of luminosity loss is the motion of the ground itself. The resulting misalignments of the quadrupole magnets cause distortions to the beam orbit...

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Detalles Bibliográficos
Autores principales: Bett, D R, Charrondière, C, Patecki, M, Pfingstner, J, Schulte, D, Tomás, R, Jeremie, A, Kubo, K, Kuroda, S, Naito, T, Okugi, T, Tauchi, T, Terunuma, N, Burrows, P N, Christian, G B, Perry, C
Lenguaje:eng
Publicado: 2018
Materias:
Accelerators and Storage Rings
Acceso en línea:https://dx.doi.org/10.1016/j.nima.2018.03.037
http://cds.cern.ch/record/2625372
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author Bett, D R
Charrondière, C
Patecki, M
Pfingstner, J
Schulte, D
Tomás, R
Jeremie, A
Kubo, K
Kuroda, S
Naito, T
Okugi, T
Tauchi, T
Terunuma, N
Burrows, P N
Christian, G B
Perry, C
author_facet Bett, D R
Charrondière, C
Patecki, M
Pfingstner, J
Schulte, D
Tomás, R
Jeremie, A
Kubo, K
Kuroda, S
Naito, T
Okugi, T
Tauchi, T
Terunuma, N
Burrows, P N
Christian, G B
Perry, C
author_sort Bett, D R
collection CERN
description The high luminosity requirement for a future linear collider sets a demanding limit on the beam quality at the Interaction Point (IP). One potential source of luminosity loss is the motion of the ground itself. The resulting misalignments of the quadrupole magnets cause distortions to the beam orbit and hence an increase in the beam emittance. This paper describes a technique for compensating this orbit distortion by using seismometers to monitor the misalignment of the quadrupole magnets in real-time. The first demonstration of the technique was achieved at the Accelerator Test Facility (ATF) at KEK in Japan. The feed-forward system consisted of a seismometer-based quadrupole motion monitoring system, an FPGA-based feed-forward processor and a stripline kicker plus associated electronics. Through the application of a kick calculated from the position of a single quadruple, the system was able to remove about 80% of the component of the beam jitter that was correlated to the motion of the quadrupole. As a significant fraction of the orbit jitter in the ATF final focus is due to sources other than quadrupole misalignment, this amounted to an approximately 15% reduction in the absolute beam jitter.
id oai-inspirehep.net-1664258
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2018
record_format invenio
spelling oai-inspirehep.net-16642582021-05-03T08:12:24Zdoi:10.1016/j.nima.2018.03.037http://cds.cern.ch/record/2625372engBett, D RCharrondière, CPatecki, MPfingstner, JSchulte, DTomás, RJeremie, AKubo, KKuroda, SNaito, TOkugi, TTauchi, TTerunuma, NBurrows, P NChristian, G BPerry, CCompensation of orbit distortion due to quadrupole motion using feed-forward control at KEK ATFAccelerators and Storage RingsThe high luminosity requirement for a future linear collider sets a demanding limit on the beam quality at the Interaction Point (IP). One potential source of luminosity loss is the motion of the ground itself. The resulting misalignments of the quadrupole magnets cause distortions to the beam orbit and hence an increase in the beam emittance. This paper describes a technique for compensating this orbit distortion by using seismometers to monitor the misalignment of the quadrupole magnets in real-time. The first demonstration of the technique was achieved at the Accelerator Test Facility (ATF) at KEK in Japan. The feed-forward system consisted of a seismometer-based quadrupole motion monitoring system, an FPGA-based feed-forward processor and a stripline kicker plus associated electronics. Through the application of a kick calculated from the position of a single quadruple, the system was able to remove about 80% of the component of the beam jitter that was correlated to the motion of the quadrupole. As a significant fraction of the orbit jitter in the ATF final focus is due to sources other than quadrupole misalignment, this amounted to an approximately 15% reduction in the absolute beam jitter.The high luminosity requirement for a future linear collider sets a demanding limit on the beam quality at the Interaction Point (IP). One potential source of luminosity loss is the motion of the ground itself. The resulting misalignments of the quadrupole magnets cause distortions to the beam orbit and hence an increase in the beam emittance. This paper describes a technique for compensating this orbit distortion by using seismometers to monitor the misalignment of the quadrupole magnets in real-time.oai:inspirehep.net:16642582018
spellingShingle Accelerators and Storage Rings
Bett, D R
Charrondière, C
Patecki, M
Pfingstner, J
Schulte, D
Tomás, R
Jeremie, A
Kubo, K
Kuroda, S
Naito, T
Okugi, T
Tauchi, T
Terunuma, N
Burrows, P N
Christian, G B
Perry, C
Compensation of orbit distortion due to quadrupole motion using feed-forward control at KEK ATF
title Compensation of orbit distortion due to quadrupole motion using feed-forward control at KEK ATF
title_full Compensation of orbit distortion due to quadrupole motion using feed-forward control at KEK ATF
title_fullStr Compensation of orbit distortion due to quadrupole motion using feed-forward control at KEK ATF
title_full_unstemmed Compensation of orbit distortion due to quadrupole motion using feed-forward control at KEK ATF
title_short Compensation of orbit distortion due to quadrupole motion using feed-forward control at KEK ATF
title_sort compensation of orbit distortion due to quadrupole motion using feed-forward control at kek atf
topic Accelerators and Storage Rings
url https://dx.doi.org/10.1016/j.nima.2018.03.037
http://cds.cern.ch/record/2625372
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