Collective stopping and ion heating in relativistic-electron-beam transport for fast ignition

被引:190
|
作者
Honda, M
Meyer-ter-Vehn, J
Pukhov, A
机构
[1] Max Planck Inst Quantenopt, D-85748 Garching, Germany
[2] Moscow Inst Phys & Technol, Dolgoprudnyi, Moscow Region, Russia
来源
PHYSICAL REVIEW LETTERS | 2000年 / 85卷 / 10期
关键词
D O I
10.1103/PhysRevLett.85.2128
中图分类号
O4 [物理学];
学科分类号
0702 ;
摘要
Filamented transport of laser-generated relativistic electron beams in a plasma is studied with reference to fast ignition of fusion targets. The study is based on transverse two-dimensional particle-in-cell simulation. Coalescence of current filaments and related ion dynamics are found to determine beam stopping and ion heating.
引用
收藏
页码:2128 / 2131
页数:4
相关论文
共 50 条
  • [31] Improved ion heating in fast ignition by pulse shaping
    Fetsch, Henry
    Fisch, Nathaniel J.
    PHYSICAL REVIEW E, 2023, 108 (04)
  • [32] Study of electron and proton isochoric heating for fast ignition
    Key, M. H.
    Akli, K.
    Beg, F.
    Chen, M. H.
    Chung, H. -K.
    Freeman, R. R.
    Foord, M. E.
    Green, J. S.
    Gu, P.
    Gregori, G.
    Habara, H.
    Hatchett, S. P.
    Hey, D.
    Hill, J. M.
    King, J. A.
    Kodama, R.
    Koch, J. A.
    Lancaster, K.
    Lasinski, B. F.
    Langdon, B.
    MacKinnon, A. J.
    Murphy, C. D.
    Norreys, P. A.
    Patel, N.
    Patel, P.
    Pasley, J.
    Snavely, R. A.
    Stephens, R. B.
    Stoeckl, C.
    Tabak, M.
    Theobald, W.
    Tanaka, K.
    Town, R.
    Wilks, S. C.
    Yabuuchi, T.
    Zhang, B.
    JOURNAL DE PHYSIQUE IV, 2006, 133 : 371 - 378
  • [33] Plasma heating by intense electron beams in fast ignition
    Sircombe, N. J.
    Bingham, R.
    Sherlock, M.
    Mendonca, T.
    Norreys, P.
    PLASMA PHYSICS AND CONTROLLED FUSION, 2008, 50 (06)
  • [34] Scaling Law for Fast Electron Beam Intensity in Fast Ignition
    Sakagami, H.
    Johzaki, T.
    Nagatomo, H.
    Nakamura, T.
    Mima, K.
    5TH INTERNATIONAL CONFERENCE ON INERTIAL FUSION SCIENCES AND APPLICATIONS (IFSA2007), 2008, 112
  • [35] Intensification of laser-produced relativistic electron beam using converging magnetic fields for ignition in fast ignition laser fusion
    Johzaki, Tomoyuki
    Hino, Masaya
    Horio, Mie
    Takeda, Shijuro
    Kim, Wookyung
    Endo, Takuma
    Fujioka, Shinsuke
    Sentoku, Yasuhiko
    Nagatomo, Hideo
    Sunahara, Atsushi
    HIGH ENERGY DENSITY PHYSICS, 2020, 36
  • [36] Unstable spectrum of a relativistic electron beam interacting with a quantum collisional plasma: application to the fast ignition scenario
    Bret, A.
    Martin Fernandez, F. J.
    Anfray, J. M.
    PLASMA PHYSICS AND CONTROLLED FUSION, 2009, 51 (07)
  • [37] Graphite-nanofiber field emitter for relativistic-electron-beam sources for pumping KrF lasers
    Okuda, I
    Takahashi, E
    Owadano, Y
    JAPANESE JOURNAL OF APPLIED PHYSICS PART 1-REGULAR PAPERS SHORT NOTES & REVIEW PAPERS, 2001, 40 (9A): : 5407 - 5408
  • [38] Graphite-nanofiber field emitter for relativistic-electron-beam sources for pumping KrF lasers
    Okuda, I.
    Takahashi, E.
    Owadano, Y.
    Japanese Journal of Applied Physics, Part 1: Regular Papers and Short Notes and Review Papers, 2001, 40 (9 A): : 5407 - 5408
  • [39] Collisional effects on fast electron generation and transport in fast ignition
    Sakagami, H.
    Okada, K.
    Kaseda, Y.
    Taguchi, T.
    Johzaki, T.
    LASER AND PARTICLE BEAMS, 2012, 30 (02) : 243 - 248
  • [40] Spatially controlling fast electron transport relevant to fast ignition
    Lei, A. L.
    Cao, L. H.
    Yang, X. Q.
    Tanaka, K. A.
    Kodama, R.
    He, X. T.
    Mima, K.
    Nakamura, T.
    Norimatsu, T.
    Yu, W.
    Zhang, W. Y.
    2009 LASERS & ELECTRO-OPTICS & THE PACIFIC RIM CONFERENCE ON LASERS AND ELECTRO-OPTICS, VOLS 1 AND 2, 2009, : 3 - +
12345