Multibunch feedback—Strategy, technology, and implementation options | Zendy

J. Fox | Zendy; N. Eisen | Zendy; H. Hindi | Zendy; G. Oxoby | Zendy; L. Sapozhnikov | Zendy; I. Linscott | Zendy; M. Serio | Zendy

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Multibunch feedback—Strategy, technology, and implementation options

Author(s) -

J. Fox,

N. Eisen,

H. Hindi,

G. Oxoby,

L. Sapozhnikov,

I. Linscott,

M. Serio

Publication year - 1992

Publication title -

aip conference proceedings

Language(s) - English

Resource type - Conference proceedings

SCImago Journal Rank - 0.177

H-Index - 75

eISSN - 1551-7616

pISSN - 0094-243X

DOI - 10.1063/1.44327

Subject(s) - betatron , synchrotron , storage ring , particle accelerator , bunches , oscillation (cell signaling) , linear particle accelerator , acceleration , computer science , digital signal processing , physics , control system , electrical engineering , computer hardware , engineering , nuclear physics , beam (structure) , optics , genetics , classical mechanics , biology

The proposed next generation accelerator and synchrotron light facilities will require active feedback systems to control multi‐bunch instabilities. These feedback systems must operate in machines with thousands of circulating bunches and with short (2–4 ns) interbunch intervals. The functional requirements for transferse (betatron) and longitudinal (synchrotron) feedback systems are presented. Several possible implementation options are discussed and system requirements developed. Results are presented from a digital signal processing based synchrotron oscillation damper operating at the SSRL/SLAC SPEAR storage ring.

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