Self-modulation and anomalous collective scattering of laser produced intense ion beam in plasmas

Self-modulation and anomalous collective scattering of laser produced intense ion beam in plasmas

The collective interaction between intense ion beams and plasmas is studied by simulations and experiments, where an intense proton beam produced by a short pulse laser is injected into a pre-ionized gas. It is found that, depending on its current density, collective effects can significantly alter...

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Main Authors: K. Mima, J. Fuchs, T. Taguchi, J. Alvarez, J.R. Marquès, S.N. Chen, T. Tajima, J.M. Perlado
Format: Article
Language:English
Published: AIP Publishing LLC 2018-05-01
Series:Matter and Radiation at Extremes
Online Access:http://dx.doi.org/10.1016/j.mre.2017.12.004
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spelling doaj-5bd088c472d54a59b02c5eed5325abed2020-11-24T21:48:23ZengAIP Publishing LLCMatter and Radiation at Extremes2468-080X2018-05-013312713410.1016/j.mre.2017.12.004004803MRESelf-modulation and anomalous collective scattering of laser produced intense ion beam in plasmasK. Mima0J. Fuchs1T. Taguchi2J. Alvarez3J.R. Marquès4S.N. Chen5T. Tajima6J.M. Perlado7The Graduate School for the Creation of New Photonics Industries, 1955-1, Kurematsu, Nishiku, Hamamatsu, JapanLULI – CNRS, Ecole Polytechnique, CEA: Universite Paris-Saclay, UPMC Univ Paris 06: Sorbonne Universites, F-91128, Palaiseau Cedex, FranceFaculty of Science and Engineering, Setsunan University, Neyagawa, 572-8508, Osaka, JapanInstituto de Fusión Nuclear, ETSI de Industriales, Universidad Politécnica de Madrid, C/ José Gutierrez Abascal, 2, E-28006, Madrid, SpainLULI – CNRS, Ecole Polytechnique, CEA: Universite Paris-Saclay, UPMC Univ Paris 06: Sorbonne Universites, F-91128, Palaiseau Cedex, FranceLULI – CNRS, Ecole Polytechnique, CEA: Universite Paris-Saclay, UPMC Univ Paris 06: Sorbonne Universites, F-91128, Palaiseau Cedex, FranceDepartment of Physics and Astronomy, University of California at Irvine, Irvine, CA, 92697, USAInstituto de Fusión Nuclear, ETSI de Industriales, Universidad Politécnica de Madrid, C/ José Gutierrez Abascal, 2, E-28006, Madrid, SpainThe collective interaction between intense ion beams and plasmas is studied by simulations and experiments, where an intense proton beam produced by a short pulse laser is injected into a pre-ionized gas. It is found that, depending on its current density, collective effects can significantly alter the propagated ion beam and the stopping power. The quantitative agreement that is found between theories and experiments constitutes the first validation of the collective interaction theory. The effects in the interaction between intense ion beams and background gas plasmas are of importance for the design of laser fusion reactors as well as for beam physics.http://dx.doi.org/10.1016/j.mre.2017.12.004
collection DOAJ
language English
format Article
sources DOAJ
author K. Mima
J. Fuchs
T. Taguchi
J. Alvarez
J.R. Marquès
S.N. Chen
T. Tajima
J.M. Perlado
spellingShingle K. Mima
J. Fuchs
T. Taguchi
J. Alvarez
J.R. Marquès
S.N. Chen
T. Tajima
J.M. Perlado
Self-modulation and anomalous collective scattering of laser produced intense ion beam in plasmas
Matter and Radiation at Extremes
author_facet K. Mima
J. Fuchs
T. Taguchi
J. Alvarez
J.R. Marquès
S.N. Chen
T. Tajima
J.M. Perlado
author_sort K. Mima
title Self-modulation and anomalous collective scattering of laser produced intense ion beam in plasmas
title_short Self-modulation and anomalous collective scattering of laser produced intense ion beam in plasmas
title_full Self-modulation and anomalous collective scattering of laser produced intense ion beam in plasmas
title_fullStr Self-modulation and anomalous collective scattering of laser produced intense ion beam in plasmas
title_full_unstemmed Self-modulation and anomalous collective scattering of laser produced intense ion beam in plasmas
title_sort self-modulation and anomalous collective scattering of laser produced intense ion beam in plasmas
publisher AIP Publishing LLC
series Matter and Radiation at Extremes
issn 2468-080X
publishDate 2018-05-01
description The collective interaction between intense ion beams and plasmas is studied by simulations and experiments, where an intense proton beam produced by a short pulse laser is injected into a pre-ionized gas. It is found that, depending on its current density, collective effects can significantly alter the propagated ion beam and the stopping power. The quantitative agreement that is found between theories and experiments constitutes the first validation of the collective interaction theory. The effects in the interaction between intense ion beams and background gas plasmas are of importance for the design of laser fusion reactors as well as for beam physics.
url http://dx.doi.org/10.1016/j.mre.2017.12.004
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