Fourth-integral resonance study on Alladin at SRC | Zendy

J. Liu | Zendy; E. Crosbie | Zendy; L. Teng | Zendy; J. Bridges | Zendy; D. Ciarlette | Zendy; K. Symon | Zendy; W.S. Trzeciak | Zendy

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Fourth-integral resonance study on Alladin at SRC

Author(s) -

J. Liu,

E. Crosbie,

L. Teng,

J. Bridges,

D. Ciarlette,

K. Symon,

W.S. Trzeciak

Publication year - 1995

Publication title -

osti oai (u.s. department of energy office of scientific and technical information)

Language(s) - English

Resource type - Reports

DOI - 10.2172/87837

Subject(s) - betatron , resonance (particle physics) , physics , tracking (education) , oscillation (cell signaling) , quantum decoherence , phase space , storage ring , beam (structure) , computational physics , nuclear magnetic resonance , atomic physics , optics , quantum mechanics , chemistry , psychology , pedagogy , biochemistry , quantum

The fourth-integral betatron resonance driven by sextupoles was studied on the electron storage ring Aladdin at SRC. The resonance feature of capturing the phase space particles in the resonance islands was dearly demonstrated. In a computer simulation, the finite beam size is simulated by multi-particle tracking and the decoherence of the betatron oscillation was shown to agree well with experiment observation

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