CERN Accelerating science

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Title	Producing multi-coloured bunches through beam-induced ionization injection in plasma wakefield accelerator
Author(s)	Vafaei-Najafabadi, N (Stony Brook U.) ; Amorim, L D (Stony Brook U.) ; Adli, E (Oslo U.) ; An, W (UCLA) ; Clarke, C I (SLAC) ; Clayton, C E (UCLA) ; Corde, S (Palaiseau, Lab. Opt. Appl.) ; Gessner, S (CERN) ; Green, S Z (SLAC) ; Hogan, M J (SLAC) ; Joshi, C (UCLA) ; Kononenko, O (Palaiseau, Lab. Opt. Appl.) ; Lindström, C A (Oslo U.) ; Litos, M (U. Colorado, Boulder) ; Lu, W (Tsinghua U., Beijing) ; Marsh, K A (UCLA) ; Mori, W B (UCLA) ; San Miguel Claveria, P (Palaiseau, Lab. Opt. Appl.) ; O'Shea, B (SLAC) ; Raj, G (Palaiseau, Lab. Opt. Appl.) ; Storey, D (SLAC) ; White, G (SLAC) ; Xu, Xinlu (UCLA) ; Yakimenko, V (SLAC)
Publication	2019
Note	This article is part of the Theo Murphy meeting issue ‘Directions in particle beam-driven plasma wakefield acceleration’.
In:	Philos. Trans. R. Soc. Lond. A 377 (2019) 20180184
In:	Directions in particle beam-driven plasma wakefield acceleration : Theo Murphy meeting, Newport Pagnell, Buckinghamshire, UK, 4 - 5 Jun 2019, pp.20180184
DOI	10.1098/rsta.2018.0184
Subject category	Accelerators and Storage Rings
Abstract	This paper discusses the properties of electron beams formed in plasma wakefield accelerators through ionization injection. In particular, the potential for generating a beam composed of co-located multi-colour beamlets is demonstrated in the case where the ionization is initiated by the evolving charge field of the drive beam itself. The physics of the processes of ionization and injection are explored through OSIRIS simulations. Experimental evidence showing similar features are presented from the data obtained in the E217 experiment at the FACET facility of the SLAC National Laboratory.
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