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The laser energy deposition coefficient, the electron thermal conduction coefficient, and the resistivity are three important physical quantities in plasma physics. For a multi-ion-component plasma, considering only the collisional interaction between electrons and ions, starting from the kinetic equation in the Fokker-Planck approximation, and using multi-timescale method, a unified derivation of the laser energy deposition coefficient, electron thermal conduction coefficient, and resistivity in the plasma is presented.
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Keywords:
- laser energy deposition coefficient /
- electron thermal conduction coefficient /
- resistivity /
- unified derivation
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Chang T Q, Zhang J, Zhang J T, Lin D W, Lai D X, Shen L J, Xu L B, Chen G N 1991 Laser Plasma Interaction and Laser Fusion (Changsha: Hunan Science and Technology Press) pp23–30
[4] Drake R P 2006 High Energy Density Physics (New York, Berlin, Heidelberg: Springer-Verlag) pp341–361
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[6] 朱少平, 古培俊 1999 强激光与粒子束 11 687
Zhu S P, Gu P J 1999 High Power Laser Part. Beams 11 687
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Google Scholar
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Google Scholar
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Google Scholar
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Google Scholar
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Google Scholar
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Google Scholar
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Google Scholar
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Google Scholar
[15] Huo W Y, Lan K, Gu P J, Yong H, Zeng Q H 2012 Phys. Plasmas 19 012303
Google Scholar
[16] 张恩浩, 蔡洪波, 杜报, 田建民, 张文帅, 康洞国, 朱少平 2020 物理学报 69 035204
Google Scholar
Zhang E H, Cai H B, Du B, Tian J M, Zhang W S, Kong D G, Zhu S P 2020 Acta Phys. Sin. 69 035204
Google Scholar
[17] Shkarofsky P, Johnston T W, Bachynski M P 1966 The Particle Kinetics of Plasmas (Addison-Wesley Publishing Company, Inc.) pp243–307
[18] Spitzer Jr L 1958 Physics of Fully Ionized Gases (New York: Interscience Publishers) pp65–88
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[1] Dawson J M, Oberman C 1962 Phys. Fluids 5 517
Google Scholar
[2] Dawson J M 1964 Phys. Fluids 7 981
Google Scholar
[3] 常铁强, 张钧, 张家泰, 林德文, 赖东显, 沈隆钧, 许林宝, 陈光南 1991 激光等离子体相互作用与激光聚变(长沙: 湖南科学技术出版社)第23—30页
Chang T Q, Zhang J, Zhang J T, Lin D W, Lai D X, Shen L J, Xu L B, Chen G N 1991 Laser Plasma Interaction and Laser Fusion (Changsha: Hunan Science and Technology Press) pp23–30
[4] Drake R P 2006 High Energy Density Physics (New York, Berlin, Heidelberg: Springer-Verlag) pp341–361
[5] Atzeni S, Meyer-ter-Vhen J2003 Inertial Fusion (Oxford: Clarendon Press) pp396–400
[6] 朱少平, 古培俊 1999 强激光与粒子束 11 687
Zhu S P, Gu P J 1999 High Power Laser Part. Beams 11 687
[7] Cohen R S, Spitzer Jr L, Routly P M 1950 Phys. Rev. 80 230
Google Scholar
[8] Spitzer Jr L, Harm R 1953 Phys. Rev. 89 977
Google Scholar
[9] Malone R C, McCrory R L, Morse R L 1975 Phys. Rev. Lett. 34 721
Google Scholar
[10] Bell A R, Evans R G, Nicholas D J 1981 Phys. Rev. Lett. 46 243
Google Scholar
[11] Matte J P, Virmont J 1982 Phys. Rev. Lett. 49 1936
Google Scholar
[12] Luciani J F, Mora P, Virmont J 1983 Phys. Rev. Lett. 51 1664
Google Scholar
[13] Albritton J R 1986 Phys. Rev. Lett. 57 1887
Google Scholar
[14] Zhu S P, Gu P J 1999 Chin. Phys. Lett. 16 520
Google Scholar
[15] Huo W Y, Lan K, Gu P J, Yong H, Zeng Q H 2012 Phys. Plasmas 19 012303
Google Scholar
[16] 张恩浩, 蔡洪波, 杜报, 田建民, 张文帅, 康洞国, 朱少平 2020 物理学报 69 035204
Google Scholar
Zhang E H, Cai H B, Du B, Tian J M, Zhang W S, Kong D G, Zhu S P 2020 Acta Phys. Sin. 69 035204
Google Scholar
[17] Shkarofsky P, Johnston T W, Bachynski M P 1966 The Particle Kinetics of Plasmas (Addison-Wesley Publishing Company, Inc.) pp243–307
[18] Spitzer Jr L 1958 Physics of Fully Ionized Gases (New York: Interscience Publishers) pp65–88
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