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Calculating the optical parameters of a highly charged plasma by the hfs method. Part 2. Average and group-average absorption coefficients

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Abstract

Published data on mean absorption coefficients for aluminum and air plasmas are compared with calculated ones.

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Literature cited

  1. 1.

    B. N. Bazylev, L. V. Golub, G. S. Romanov, and V. I. Tolkach, Inzh.-Fiz. Zh.,58, No. 6, 1012–1017 (1990).

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    V. I. Buzdin, A. V. Dobkin, I. B. Kosarev, et al., Thermodynamic and Optical Parameters of High-Temperature Plasmas [in Russian], Moscow (1983), VINITI, No. 52–84.

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    F. N. Borovik, S. I. Kas'kova, G. S. Romanov, et al., Opt. Spektrosk.,52, No. 4, 614–620 (1982).

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    Thermal Radiation Phenomena. Vol. 1, Radiative Properties of Air, IFI/PLENUM, Washington (1969).

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    G. A. Kobzev, Optical Parameters of an Air Plasma at High Temperatures: Continuous Spectrum, Main Processes, and Calculation Methods [in Russian], Preprint, IVTAN, Moscow, No. 1–112 (1983).

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Translated from Inzhenerno-Fizicheskii Zhurnal, Vol. 59, No. 1, pp. 62–65, July, 1990.

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Bazylev, B.N., Golub, L.V., Romanov, G.S. et al. Calculating the optical parameters of a highly charged plasma by the hfs method. Part 2. Average and group-average absorption coefficients. Journal of Engineering Physics 59, 862–864 (1990). https://doi.org/10.1007/BF00871322

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Keywords

  • Aluminum
  • Statistical Physic
  • Absorption Coefficient
  • Optical Parameter