Benchmarking collective effects of electron interactions in a wiggler with OPAL-FEL

OPAL-FEL is a recently developed tool for the modeling of particle accelerators containing wigglers or undulators. It extends the well established 3D electrostatic particle-tracking code OPAL, by merging it with the finite-difference time-domain electromagnetic solver MITHRA. We present results of t...

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Veröffentlicht in:	Computer physics communications 2022-11, Vol.280, p.108475, Article 108475
Hauptverfasser:	Albà, Arnau, Seok, Jimin, Adelmann, Andreas, Doran, Scott, Ha, Gwanghui, Lee, Soonhong, Piao, Yinghu, Power, John, Qian, Maofei, Wisniewski, Eric, Xu, Joseph, Zholents, Alexander
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Sprache:	eng
Schlagworte:	Accelerator physics Computational electromagnetics Electron cooling Microbunching PARTICLE ACCELERATORS Radiation Wiggler
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container_title	Computer physics communications
container_volume	280
creator	Albà, Arnau Seok, Jimin Adelmann, Andreas Doran, Scott Ha, Gwanghui Lee, Soonhong Piao, Yinghu Power, John Qian, Maofei Wisniewski, Eric Xu, Joseph Zholents, Alexander
description	OPAL-FEL is a recently developed tool for the modeling of particle accelerators containing wigglers or undulators. It extends the well established 3D electrostatic particle-tracking code OPAL, by merging it with the finite-difference time-domain electromagnetic solver MITHRA. We present results of two benchmark cases where OPAL-FEL simulations are compared to experimental results. Both experiments concern electron beamlines where the longitudinal phase space is modulated with a short magnetic wiggler. Good agreement was found in both the space charge and radiation dominated regimes.
doi_str_mv	10.1016/j.cpc.2022.108475
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subjects	Accelerator physics Computational electromagnetics Electron cooling Microbunching PARTICLE ACCELERATORS Radiation Wiggler
title	Benchmarking collective effects of electron interactions in a wiggler with OPAL-FEL
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