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Detailed Reference Information |
Mauk, B.H., Keath, E.P. and Krimigis, S.M. (1994). Unusual satellite-electron signature within the Uranian magnetosphere and its implications regarding whistler electron loss processes. Journal of Geophysical Research 99. doi: 10.1029/94JA01658. issn: 0148-0227. |
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It has been reported that during the outbound (nightside) portion of the Voyager 2 encounter with the Uranian magnetosphere, intense whistler mode emissions were observed near the magnetic equator (&lgr;m~16¿) and at L shell values between ~5.5 and ~9 Ru. Comprehensive calculations of whistler-driven pitch angle diffusion, in previous work, have yielded strong diffusion electron lifetimes of ~1 hour for 20 to 40 keV electrons. In this paper we report on an unusual and sharply defined charged particle feature that: (1) involved electrons between 22 and 35 keV, (2) was observed during the time period of the intense whistler mode observations, (3) was aligned very accurately and sharply with the minimum L shell position (L~7.5) of the satellite Ariel, and (4) has an appearance that suggests that electrons were removed only at and beyond Ariel's minimum-L. On the basis of our conclusion that the signature was caused by electron interactions with either Ariel or materials distributed along Ariel's orbit, the signature could not have been generated for at least 10 hours prior to its observation. Thus the calculated whistler loss times are in apparent conflict with the signature observation. A scenario of events is proposed to explain the data that involves substormlike electron acceleration on the Uranian nightside and a subsequent sculpting of the electron spatial distributions via interactions with Ariel or materials distributed along Ariel's orbit. Interactions with distributed materials, such as micron-sized particulates, are favored because they minimize the discrepancy between the whistler-loss calculations and the observations presented here. The possibility exists that the accurate alignment of the sharp electron feature with Ariel's minimum-L, and the absorptionlike character of the feature, are accidental, and that the feature is caused by dynamical processes (e.g., substorms). In this case the dynamical processes must be quite dissimilar to those occurring in the Earth's magnetosphere. ¿ American Geophysical Union 1994 |
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Abstract |
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Keywords
Magnetospheric Physics, Planetary magnetospheres, Magnetospheric Physics, Magnetosphere interactions with satellites and rings, Space Plasma Physics, Wave-particle interactions, Planetology, Fluid Planets, Rings and dust |
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Publisher
American Geophysical Union 2000 Florida Avenue N.W. Washington, D.C. 20009-1277 USA 1-202-462-6900 1-202-328-0566 service@agu.org |
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