A bounce‐averaged kinetic model of the ring current ion population

doi:doi:10.1029/94GL02695

Abstract

V. K. Jordanova

Space Physics Research Laboratory, The University of Michigan, Ann Arbor

J. U. Kozyra

Space Physics Research Laboratory, The University of Michigan, Ann Arbor

G. V. Khazanov

Space Physics Research Laboratory, The University of Michigan, Ann Arbor

A. F. Nagy

Space Physics Research Laboratory, The University of Michigan, Ann Arbor

C. E. Rasmussen

Space Physics Research Laboratory, The University of Michigan, Ann Arbor

M.‐C. Fok

Space Science Laboratory, NASA/MSFC, Huntsville

A bounce‐averaged ring current kinetic model for arbitrary pitch angle, including losses due to charge exchange and Coulomb collisions along ion drift paths, is developed and solved numerically. Results from simplified model runs, intended to illustrate the effects of adiabatic drifts and collisional losses on the proton population, are presented. The processes of i) particle acceleration under the conditions of time‐independent magnetospheric electric fields; ii) a predominant loss of particles with small pitch angles due to charge exchange; and iii) a buildup of a low‐energy population caused by the Coulomb drag energy degradation, are discussed.

Received 30 May 1994; accepted 28 September 1994; .

Citation: Jordanova, V. K., J. U. Kozyra, G. V. Khazanov, A. F. Nagy, C. E. Rasmussen, and M.‐C. Fok (1994), A bounce‐averaged kinetic model of the ring current ion population, Geophys. Res. Lett., 21(25), 2785–2788.

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