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Simulation of transverse modes with their intrinsic Landau damping for bunched beams in the presence of space charge

Simulation of transverse modes with their intrinsic Landau damping for bunched beams in the... Transverse dipole modes in bunches with space charge are simulated using the synergia accelerator modeling package and analyzed with dynamic mode decomposition. The properties of the first three space charge modes, including their shape, damping rates, and tune shifts are described over the entire range of space charge strength. The intrinsic Landau damping predicted and estimated in 2009 by one of the authors is confirmed with a reasonable scaling factor of ≃ 2.4 . For the KV distribution, very good agreement with PATRIC simulations performed by Kornilov and Boine-Frankenheim is obtained. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Physical Review Special Topics—Accelerators and Beams American Physical Society (APS)

Simulation of transverse modes with their intrinsic Landau damping for bunched beams in the presence of space charge

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Simulation of transverse modes with their intrinsic Landau damping for bunched beams in the presence of space charge

Macridin, Alexandru; Burov, Alexey; Stern, Eric; Amundson, James; Spentzouris, Panagiotis
Physical Review Special Topics—Accelerators and Beams , Volume 18 (7): 10 – Jul 22, 2015

Abstract

Transverse dipole modes in bunches with space charge are simulated using the synergia accelerator modeling package and analyzed with dynamic mode decomposition. The properties of the first three space charge modes, including their shape, damping rates, and tune shifts are described over the entire range of space charge strength. The intrinsic Landau damping predicted and estimated in 2009 by one of the authors is confirmed with a reasonable scaling factor of ≃ 2.4 . For the KV distribution, very good agreement with PATRIC simulations performed by Kornilov and Boine-Frankenheim is obtained.

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Publisher
American Physical Society (APS)
Copyright
Published by the American Physical Society
Subject
ARTICLES; Relativistic, Multiple-Particle Dynamics
ISSN
1098-4402
eISSN
1098-4402
DOI
10.1103/PhysRevSTAB.18.074401
Publisher site
See Article on Publisher Site

Abstract

Transverse dipole modes in bunches with space charge are simulated using the synergia accelerator modeling package and analyzed with dynamic mode decomposition. The properties of the first three space charge modes, including their shape, damping rates, and tune shifts are described over the entire range of space charge strength. The intrinsic Landau damping predicted and estimated in 2009 by one of the authors is confirmed with a reasonable scaling factor of ≃ 2.4 . For the KV distribution, very good agreement with PATRIC simulations performed by Kornilov and Boine-Frankenheim is obtained.

Journal

Physical Review Special Topics—Accelerators and BeamsAmerican Physical Society (APS)

Published: Jul 22, 2015

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