Structure of Plane Shock Wave in Plasma
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概要
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The structure of a plane shock wave which propagates in a plasma without magnetic fields is investigated by using the fully ionized model of the ion and the electron gases. The transport equations are of the Navier-Stokes type, the viscosity of the ion and the thermal conductivity of the electron being taken into account. To calculate the collision terms in the sbock region, the Mott-Smith type and the local equilibrium type are assumed for the distribution functions of the ion and the electron respectively, and the Fokker-Planck equation is employed. This formulation can always give the continous solutions which do not miss a physical meaning for all Mach numbers. In addition, the three-fluid model which improves the transport equations for the ion is proposed and the alternative forms of considering the electron momentum are also derived.
- 社団法人日本物理学会の論文
- 1964-06-05
著者
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Niu Keishiro
Department Of Energy Science The Graduate School At Nagatsuta Tokyo Institute Of Technology
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Niu Keishiro
Department Of Mechanical Engineering Faculity Of Engineering Science Osaka University
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