Active Shimming of Dynamic Multipoles of an APPLE II Undulator in the Diamond Storage Ring

Authors: B. Singh (Diamond Light Source) , R. Bartolini (Diamond Light Source; John Adams Institute, University of Oxford) , R. Fielder (Diamond Light Source) , E. C. Longhi (Diamond Light Source) , I. P. Martin (Diamond Light Source) , S. P. Mhaskar (Diamond Light Source) , R. P. Walker (Diamond Light Source)
Co-authored by industrial partner: No

Type: Conference Paper
Conference: IPAC13
Peer Reviewed: No

State: Published (Approved)
Published: May 2013

Abstract: Diamond plans to operate a 5 m, long period length, APPLE undulator in a long insertion straight section. Theoretical investigations showed a severe impact on machine dynamics especially when the device is operated in vertical polarization mode. The use of local optics corrections and/or lowering of beta functions were initially investigated as possible solutions but with limited success. Active shimming of dynamic multipoles, following the approach at BESSY-II, proved more effective. The optimum shiming has been devised using kick map approach. In this paper we review the theoretical analysis, the commissioning of the active shims and the undulator, and the net effect of the undulator after compensation.

Subject Areas: Technique Development

Technical Areas: Insertion Devices

Added On: 27/03/2017 12:27

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