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초강력레이저과학연구단
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Scaling and design of high-energy laser plasma electron acceleration

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Title
Scaling and design of high-energy laser plasma electron acceleration
Author(s)
Kazuhisa Nakajima; Hyung Taek Kim; Tae Moon Jeong; Chang Hee Nam
Subject
TABLE-TOP, ; WAKEFIELD, ; BEAMS
Publication Date
2015-03-11
Journal
HIGH POWER LASER SCIENCE AND ENGINEERING, v.3, pp.e10
Publisher
CHINESE LASER PRESS & CAMBRIDGE UNIV PRESS
Abstract
Recently there has been great progress in laser-driven plasma-based accelerators by exploiting high-power lasers, where electron beams can be accelerated to multi-GeV energy in a centimeter-scale plasma due to the laser wakefield acceleration mechanism. While, to date, worldwide research on laser plasma accelerators has been focused on the creation of compact particle and radiation sources for basic sciences, medical and industrial applications, there is great interest in applications for high-energy physics and astrophysics, exploring unprecedented high-energy frontier phenomena. In this context, we present an overview of experimental achievements in laser plasma acceleration from the perspective of the production of GeV-level electron beams, and deduce the scaling formulas capable of predicting experimental results self-consistently, taking into account the propagation of a relativistic laser pulse through plasma and the accelerating field reduction due to beam loading. Finally, we present design examples for 10-GeV-level laser plasma acceleration, which is expected in near-term experiments by means of petawatt-class lasers.
URI
https://pr.ibs.re.kr/handle/8788114/2358
DOI
10.1017/hpl.2015.5
ISSN
2095-4719
Appears in Collections:
Center for Relativistic Laser Science(초강력 레이저과학 연구단) > 1. Journal Papers (저널논문)
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