Breaking of the laser excited wakefield due to electron beam

被引:0
|
作者
Tsintsadze, LN [1 ]
Mima, K [1 ]
Nishikawa, K [1 ]
机构
[1] Osaka Univ, Inst Laser Engn, Osaka, Japan
来源
SUPERSTRONG FIELDS IN PLASMAS: FIRST INTERNATIONAL CONFERENCE | 1998年 / 426期
关键词
D O I
10.1063/1.55225
中图分类号
O43 [光学];
学科分类号
070207 ; 0803 ;
摘要
Effects of electron beam, accelerated by a superstrong short laser pulse: on the electron plasma waves are investigated. Shock formation and subsequent wave breaking are discussed and the time and the place of the shock formation are determined for two different cases, namely the first, electron beam is modulated by a wakefield and the second, electron beam is considered with Gaussian distribution.
引用
收藏
页码:182 / 185
页数:4
相关论文
共 50 条
  • [1] Ultrashort electron beam generation from resonantly excited nonlinear laser wakefield
    Nagashima, K
    Kishimoto, Y
    Takuma, H
    PHYSICAL REVIEW E, 1999, 59 (01): : 1263 - 1266
  • [2] Electron beam pointing stability of a laser wakefield accelerator
    Issac, R. C.
    Vieux, G.
    Welsh, G. H.
    Shanks, R.
    Brunetti, E.
    Cipiccia, S.
    Anania, M. P.
    Yang, X.
    Wiggins, S. M.
    Islam, M. R.
    Ersfeld, B.
    Farmer, J.
    Raj, G.
    Chen, S.
    Clark, D.
    McCanny, T.
    Jaroszynski, D. A.
    HARNESSING RELATIVISTIC PLASMA WAVES AS NOVEL RADIATION SOURCES FROM TERAHERTZ TO X-RAYS AND BEYOND, 2009, 7359
  • [3] Laser Wakefield Accelerated Electron Beam Monitoring and Control
    Koga, J. K.
    Mori, M.
    Kotaki, H.
    Bulanov, S. V.
    Esirkepov, T. Zh.
    Kiriyama, H.
    Kando, M.
    PHYSICS OF PLASMA-DRIVEN ACCELERATORS AND ACCELERATOR-DRIVEN FUSION, 2016, 1721
  • [4] Emittance measurements of a laser-wakefield-accelerated electron beam
    Fritzler, S
    Lefebvre, E
    Malka, V
    Burgy, F
    Dangor, AE
    Krushelnick, K
    Mangles, SPD
    Najmudin, Z
    Rousseau, JP
    Walton, B
    PHYSICAL REVIEW LETTERS, 2004, 92 (16) : 165006 - 1
  • [5] Electron beam energy slicing performance in laser wakefield acceleration
    Oumbarek Espinos D.
    Pathak N.
    Zhidkov A.
    Hosokai T.
    Physics Letters, Section A: General, Atomic and Solid State Physics, 2022, 453
  • [6] Electron beam chirp dexterity in staging laser wakefield acceleration
    Pathak, N.
    Zhidkov, A.
    Hosokai, T.
    PHYSICS OF PLASMAS, 2021, 28 (05)
  • [7] Laser Seeded Electron Beam Filamentation in High Intensity Laser Wakefield Acceleration
    Vargas, M.
    Schumaker, W.
    Cummings, P.
    Chvykov, V.
    Yanovsky, V.
    Maksimchuk, A.
    Krushelnick, K.
    Thomas, A. G. R.
    ADVANCED ACCELERATOR CONCEPTS, 2012, 1507 : 336 - 340
  • [8] Limitation on the accelerating gradient of a wakefield excited by an ultrarelativistic electron beam in rubidium plasma
    Vafaei-Najafabadi, N.
    Marsh, K. A.
    Clayton, C. E.
    An, W.
    Mori, W. B.
    Joshi, C.
    Lu, W.
    Adli, E.
    Corde, S.
    Clarke, C. I.
    Litos, M.
    Green, S. Z.
    Gessner, S.
    Frederico, J.
    Fisher, A. S.
    Wu, Z.
    Walz, D.
    Hogan, M. J.
    PHYSICAL REVIEW ACCELERATORS AND BEAMS, 2016, 19 (10):
  • [9] Dependence of the electron beam parameters on the stability of laser propagation in a laser wakefield accelerator
    Hafz, N. M.
    Choi, I. W.
    Sung, J. H.
    Kim, H. T.
    Hong, K.-H.
    Jeong, T. M.
    Yu, T. J.
    Kulagin, V.
    Suk, H.
    Noh, Y.-C.
    Ko, D.-K.
    Lee, J.
    APPLIED PHYSICS LETTERS, 2007, 90 (15)
  • [10] Harmonics generation of a terahertz wakefield free-electron laser from a dielectric loaded waveguide excited by a direct current electron beam
    Li, Weiwei
    Lu, Yalin
    He, Zhigang
    Jia, Qika
    Wang, Lin
    OPTICS LETTERS, 2016, 41 (11) : 2458 - 2461
12345