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First-principles simulation and comparison with beam tests for transverse instabilities and damper performance in the Fermilab Main Injector

Author: G William FosterVladimir KashikhinDennis NicklausFermi National Accelerator Laboratory.United States. Department of Energy.All authors
Publisher: Washington, D.C. : United States. Dept. of Energy ; Oak Ridge, Tenn. : Distributed by the Office of Scientific and Technical Information, U.S. Dept. of Energy, 2005.
Edition/Format:   eBook : Document : Conference publication : National government publication : English
Database:WorldCat
Summary:
An end-to-end performance calculation and comparison with beam tests was performed for the bunch-by-bunch digital transverse damper in the Fermilab Main Injector. Time dependent magnetic wakefields responsible for ''Resistive Wall'' transverse instabilities in the Main Injector were calculated with OPERA-2D using the actual beam pipe and dipole magnet lamination geometry. The leading order dipole component was  Read more...
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Material Type: Conference publication, Document, Government publication, National government publication, Internet resource
Document Type: Internet Resource, Computer File
All Authors / Contributors: G William Foster; Vladimir Kashikhin; Dennis Nicklaus; Fermi National Accelerator Laboratory.; United States. Department of Energy.; United States. Department of Energy. Office of Scientific and Technical Information.
OCLC Number: 316326701
Notes: Published through the Information Bridge: DOE Scientific and Technical Information.
05/01/2005.
"FERMILAB-CONF-05-137-AD."
To appear in the proceedings of Particle Accelerator Conference (PAC 05), Knoxville, Tennessee, 16-20 May 2005.
Foster, G. William; Kashikhin, Vladimir; Nicklaus, Dennis.
Description: 3 pages.
Details: Mode of access: World Wide Web.

Abstract:

An end-to-end performance calculation and comparison with beam tests was performed for the bunch-by-bunch digital transverse damper in the Fermilab Main Injector. Time dependent magnetic wakefields responsible for ''Resistive Wall'' transverse instabilities in the Main Injector were calculated with OPERA-2D using the actual beam pipe and dipole magnet lamination geometry. The leading order dipole component was parameterized and used as input to a bunch-by-bunch simulation which included the filling pattern and injection errors experienced in high-intensity operation of the Main Injector. The instability growth times, and the spreading of the disturbance due to newly misinjected batches was compared between simulations and beam data collected by the damper system. Further simulation models the effects of the damper system on the beam.

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