Published in

European Geosciences Union, Annales Geophysicae, 5(12), p. 422-430, 1994

DOI: 10.1007/s00585-994-0422-8

European Geosciences Union, Annales Geophysicae, 5(12), p. 422

DOI: 10.1007/s005850050070

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On the role of collective interactions in asymmetric ring current formation

Journal article published in 1 by P. A. Bespalov, A. G. Demekhov, A. Grafe, V. Y.-U. Trakhtengerts
This paper is made freely available by the publisher.
This paper is made freely available by the publisher.

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Abstract

Abstract. The contribution of resonant wave-particle interactions to the formation and decay of the magnetospheric ring current is analysed in the framework of a self-consistent set of equations which take into account azimuthal plasmasphere asymmetry. It is shown that the cyclotron interaction of westward drifting energetic protons with Alfven waves in the evening-side plasmaspheric bulge region leads to the formation of a ring current asymmetry located near 18:00 MLT. The time-scale of this asymmetry is determined by the proton drift time through the plasmaspheric bulge and is about 1 - 3 h. A symmetrical ring current decays mainly due to charge exchange processes. The theory is compared with known experimental data on ions and waves in the ring current and on low-latitude magnetic disturbances. New low-latitude magnetometer data on the magnetic storm of 24 - 26 July 1986 are also discussed. The model presented explains the observed localization of an asymmetrical ring current loop in the evening sector and the difference in relaxation time-scales of the asymmetry and the Dst index. It also explains measured wave turbulence levels in the evening-side plasmasphere and wave observation statistics.