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Matematicheskoe modelirovanie, 2008, Volume 20, Number 4, Pages 57–68 (Mi mm2382)  
This article is cited in 7 scientific papers (total in 7 papers)

Dynamic and heating of plasma subject to heat flux relaxation

P. P. Volosevicha, N. V. Zmitrenkoa, E. I. Levanova, E. V. Severinab

a Institute for Mathematical Modelling, Russian Academy of Sciences
b Moscow Institute of Physics and Technology
Full-text PDF (540 kB) Citations (7)
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Abstract: Article describes the analysis of hyperbolic heat transfer model taking into account the relaxation of the heat flow. It is shown that heat flow relaxation can essentially influence the character of energy transfer in the substance. The estimation of influence of heat transfer on laser plasma processes is carried out. Some of the qualitative effects are investigated using solutions of the gas dynamics equations (automodel solution and progressive waves solution).
Received: 07.12.2006
English version:
Mathematical Models and Computer Simulations, 2009, Volume 1, Issue 2, Pages 189–199
DOI: https://doi.org/10.1134/S2070048209020033
Bibliographic databases:
Language: Russian
Citation: P. P. Volosevich, N. V. Zmitrenko, E. I. Levanov, E. V. Severina, “Dynamic and heating of plasma subject to heat flux relaxation”, Mat. Model., 20:4 (2008), 57–68; Math. Models Comput. Simul., 1:2 (2009), 189–199
Citation in format AMSBIB
\Bibitem{VolZmiLev08}
\by P.~P.~Volosevich, N.~V.~Zmitrenko, E.~I.~Levanov, E.~V.~Severina
\paper Dynamic and heating of plasma subject to heat flux relaxation
\jour Mat. Model.
\yr 2008
\vol 20
\issue 4
\pages 57--68
\mathnet{http://mi.mathnet.ru/mm2382}
\zmath{https://zbmath.org/?q=an:1150.82313}
\transl
\jour Math. Models Comput. Simul.
\yr 2009
\vol 1
\issue 2
\pages 189--199
\crossref{https://doi.org/10.1134/S2070048209020033}
\scopus{https://www.scopus.com/record/display.url?origin=inward&eid=2-s2.0-84929086163}
Linking options:
  • https://www.mathnet.ru/eng/mm2382
  • https://www.mathnet.ru/eng/mm/v20/i4/p57
    • This publication is cited in the following 7 articles:
    1. Alexander I. Zhmakin, Non-Fourier Heat Conduction, 2023, 1  crossref
    2. Zhmakin A.I., “Heat Conduction Beyond the Fourier Law”, Tech. Phys., 66:1 (2021), 1–22  crossref  isi  scopus
    3. L. S. Isachenko, A. I. Lobanov, “Raznostnaya skhema dlya resheniya uravnenii rosta opukholi s uchetom ogranicheniya potoka”, Vestn. YuUrGU. Ser. Matem. modelirovanie i programmirovanie, 10:2 (2017), 98–106  mathnet  crossref  elib
    4. G. L. Bukhbinder, P. N. Martaller, “Volnovoi mekhanizm massoperenosa v metallakh pod deistviem impulsnogo oblucheniya”, Matem. modelirovanie, 24:2 (2012), 139–150  mathnet
    5. Charakhch'yan A.A., Gryn' V.I., Khishchenko K.V., “On the role of heat conduction in the formation of a high-temperature plasma during counter collision of rarefaction waves of solid deuterium”, Journal of Applied Mechanics and Technical Physics, 52:4 (2011), 501–516  crossref  zmath  adsnasa  isi  elib  scopus
    6. Oreshina A.V., Somov B.V., “On the heat conduction in a high-temperature plasma in solar flares”, Astronomy Letters, 37:10 (2011), 726–736  crossref  adsnasa  isi  elib  elib  scopus
    7. Oreshina A.V., Somov B.V., “Heat-transfer mechanisms in solar flares. 2: Consideration of heat-flux relaxation”, Moscow University Physics Bulletin, 66:3 (2011), 292–297  crossref  adsnasa  isi  elib  elib  scopus
    Citing articles in Google Scholar: Russian citations, English citations
    Related articles in Google Scholar: Russian articles, English articles
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    References:99
    First page:16
     
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