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Article
Ambipolar Diffusion in Two-Temperature Multicomponent Plasmas
Plasma Chemistry and Plasma Processing (1993)
  • John D. Ramshaw, Portland State University
  • C. H. Chang
Abstract

A recent formulation of multicomponent diffusion in multitemperature gas mixtures [J. D. Ramshaw, J. Non-equilib. Thermodyn. 18. 121 (1993)] is applied to ambipolar diffusion in two-temperature multicomponent plasmas in zero magnetic field. Simplifications chic to the small electron muss are systematically exploited. A general expression is derived for the ambipolar electric field E. In the special case where the electron and heavy-particle temperatures are equal, this expression reduces to a result previously obtained using a self-consistent effective binary diffusion (SCEBD) approximation [J. D. Ramshaw and C. H. Chang,Plasma Chem. Plasma Process.11. 395 (1991)]. When thermal diffusion due to electrons is neglected, the heavy particles are shown to diffuse precisely as they would in the same E field if the electrons were entirely removed from the system. Finally, the SCEBD approximation for ambipolar diffusion in multicomponent plasmas is generalized to the case, of unequal electron and heavy-particle temperatures

At the time of writing, John Ramshaw was affiliated with Idaho National Engineering Laboratory.

Keywords
  • Fluid mechanics,
  • Multiphase flow,
  • Plasma (Ionized gases) -- Mathematical models,
  • Thermal diffusivity
Publication Date
September, 1993
Citation Information
John D. Ramshaw and C. H. Chang. "Ambipolar Diffusion in Two-Temperature Multicomponent Plasmas" Plasma Chemistry and Plasma Processing Vol. 13 Iss. 3 (1993)
Available at: http://works.bepress.com/john_ramshaw/72/