ELECTRON DISTRIBUTION FUNCTION IN A NONEQUIPARTITION PLASMA

ELECTRON DISTRIBUTION FUNCTION IN A NONEQUIPARTITION PLASMA

Solutions to the kinetic equation of a steady, homogeneous plasma of arbitrary degree of ionization subjected to strong electric fields are developed. Nonelastic as well as elastic encounters are included in the analysis. Expressions for the current density, electrical conductivity and electron temp...

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Bibliographische Detailangaben
1. Verfasser: Viegas,J. R
Format: Report
Sprache:eng
Schlagworte:
DISTRIBUTION FUNCTIONS
ELECTRIC FIELDS
ELECTRICAL CONDUCTIVITY
ELECTRON DENSITY
KINETIC THEORY
PLASMA MEDIUM
Plasma Physics and Magnetohydrodynamics
TEMPERATURE
THESES
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Beschreibung
Zusammenfassung:Solutions to the kinetic equation of a steady, homogeneous plasma of arbitrary degree of ionization subjected to strong electric fields are developed. Nonelastic as well as elastic encounters are included in the analysis. Expressions for the current density, electrical conductivity and electron temperature of the plasma are also presented. Numerical results are illustrated for the case when the nonelastic effects are neglected. Calculations are presented showing the transition of the isotropic part f(0) of the distribution function from a gas-temperature Maxwellian at near equilibrium conditions to an electron-temperature Maxwellian under nonequipartition conditions. It was found that whenever the electron-electron to electron-neutral collision-frequency ratio was much greater than the electron-to-heavy-particle mass ratio, f(0) is Maxwellian. When f(0) is Maxwellian, the Chapman-Enskog and Spitzer-Harm conductivity expressions developed for the case of weak electric fields are shown to be applicable for strong electric fields providing that in these expressions the electron temperature replaces the gas temperature. (Author)