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Title: Saturn's ring current: Local time dependence and temporal variability
Authors: Kellett, S.
Bunce, E. J.
Cowley, S. W. H.
Arridge, C. S.
Coates, A. J.
Coates, A. J.
Dougherty, M. K.
Persoon, A. M.
Sergis, N.
Wilson, R. J.
First Published: 26-May-2011
Publisher: American Geophysical Union (AGU); Wiley
Citation: Journal of Geophysical Research A: SPACE PHYSICS, 2011, 116 (5)
Abstract: [1] Radial profiles of the azimuthal current density between ∼3 and 20 RS in Saturn's magnetosphere have been derived using plasma and magnetic field data from 11 near-equatorial Cassini orbits spanning a 10 month interval. The current density generally shows only modest variations with local time and from pass to pass within this region, rising rapidly near ∼5 RS to peak at ∼90 pA m−2 at ∼9 RS and falling more gradually to below ∼20 pA m−2 at 20 RS. The pressure gradient current is overall the most important component, the dominant inertia current in the inner region being significantly canceled by the oppositely directed pressure anisotropy current. These characteristics principally reflect the properties of the warm water plasma originating from the Enceladus torus to distances of ∼10 RS encompassing the usual current peak, inside of which distance the plasma properties are generally unvarying within factors of less than ∼2. Increased variability is present at larger distances where the pressure of the hot magnetospheric plasma plays the more important role. In this region the dominant pressure gradient current is found to be strongest in the dusk to midnight sector and declines modestly, by factors of ∼2 or less, in the midnight to dawn and dawn to noon sectors. Pass-to-pass temporal variability by factors of ∼2–3 is also present in the outer region, particularly in the dawn to noon sector, probably reflecting both hot plasma injection events as well as solar wind–induced variations.
DOI Link: 10.1029/2010JA016216
ISSN: 0148-0227
Version: Publisher Version
Status: Peer-reviewed
Type: Journal Article
Rights: Copyright © 2011 by the American Geophysical Union. All rights reserved. Archived with reference to Usage Permissions granted to authors, available at
Appears in Collections:Published Articles, Dept. of Physics and Astronomy

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