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From the same journal

High-Mach number collisionless shock and photo-ionized non-LTE plasma for laboratory astrophysics with intense lasers

Research output: Contribution to journalArticle

Published copy (DOI)


  • H. Takabe
  • T. N. Kato
  • Y. Sakawa
  • Y. Kuramitsu
  • T. Morita
  • T. Kadono
  • K. Shigemori
  • K. Otani
  • H. Nagatomo
  • T. Norimatsu
  • S. Dono
  • T. Endo
  • K. Miyanishi
  • T. Kimura
  • A. Shiroshita
  • N. Ozaki
  • R. Kodama
  • S. Fujioka
  • H. Nishimura
  • D. Salzman
  • B. Loupias
  • C. Gregory
  • M. Koenig
  • J. N. Waugh
  • D. Kato
  • Q-L Dong
  • S-J Wang
  • Y. Zhang
  • J. Zhao
  • F-L Wang
  • H-G Wei
  • J-R Shi
  • G. Zhao
  • J-Y Zhang
  • T-S Wen
  • W-H Zhang
  • X. Hu
  • S-Y Liu
  • Y. K. Ding
  • L. Zhang
  • Y-J Tang
  • B-H Zhang
  • Z-J Zheng
  • Z-M Sheng
  • J. Zhang


Publication details

JournalPlasma Physics and Controlled Fusion
DatePublished - Dec 2008
Issue number12
Number of pages15
Pages (from-to)-
Original languageEnglish


We propose that most of the collisionless shocks in the Universe, for example, supernova remnant shocks, are produced because of the magnetic field generated by Weibel instability and its nonlinear process. In order to verify and validate the computational result confirming this theory, we are carrying out model experiments with intense lasers. We are going to make a collisionless counter-streaming plasma with intense laser ablation based on the scaling law to laser plasma with the particle-in-cell simulation resulting in Weibel-mediated shock formation. Preliminary experimental data are shown. The photo-ionization and resultant non-LTE plasma physics are also very important subjects in astrophysics related to mainly compact objects, for example, black hole, neutron star and white dwarf. Planckian radiation with its temperature 80-100 eV has been produced in gold cavity with irradiation of intense lasers inside the cavity. The sample materials are irradiated by the radiation inside the cavity and absorption and self-emission spectra are observed and analyzed theoretically. It is demonstrated how the effect of non-LTE is essential to reproduce the experimental spectra with the use of a precision computational code.

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