Phenomenological description of the nonequilibrium magnetospheric plasma in the adiabatic approximation

Details Phenomenological description of the nonequilibrium magnetospheric plasma in the adiabatic approximation Phenomenological description of the nonequilibrium magnetospheric plasma in the adiabatic approximation

Nov 1980

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1980kosis..18..851p&link_type=abstract

Kosmicheskie Issledovaniia, vol. 18, Nov.-Dec. 1980, p. 851-876. In Russian.

Mathematics

Logic

Collisionless Plasmas, Earth Magnetosphere, Nonequilibrium Plasmas, Plasma-Electromagnetic Interaction, Space Plasmas, Variational Principles, Adiabatic Equations, Asymptotic Methods, Ionized Gases, Phenomenology, Plasma Density, Plasma Drift

Scientific paper

D'iarmati's (1974) variational principle is used to derive a phenomenological equation of a collisionless nonequilibrium plasma in a strong magnetic field in the adiabatic approximation. Conditions for the investigation of the magnetospheric plasma in the general case are considered; i.e., the parallel-velocity is not equal to zero, the H field is not steady, and the plasma is not quasi-neutral. It is shown that Volosov's (1962) asymptotic method can be used to solve the phenomenological equation.

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