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Global electric field determination in the Earth's outer magnetosphere using energetic charged particlesAlthough many properties of the Earth's magnetosphere have been measured and quantified in the past 30 years since it was discovered, one fundamental measurement (for zeroth order MHD equilibrium) has been made infrequently and with poor spatial coverage - the global electric field. This oversight is due in part to the neglect of theorists. However, there is renewed interest in the convection electric field because it is now realized to be central to many magnetospheric processes, including the global MHD equilibrium, reconnection rates, Region 2 Birkeland currents, magnetosphere ionosphere coupling, ring current and radiation belt transport, substorm injections, and several acceleration mechanisms. Unfortunately the standard experimental methods have not been able to synthesize a global field (excepting the pioneering work of McIlwain's geostationary models) and we are left with an overly simplistic theoretical field, the Volland-Stern electric field model. Single point measurements of the plasmapause were used to infer the appropriate amplitudes of this model, parameterized by K(sub p). Although this result was never intended to be the definitive electric field model, it has gone nearly unchanged for 20 years. The analysis of current data sets requires a great deal more accuracy than can be provided by the Volland-Stern model. The variability of electric field shielding has not been properly addressed although effects of penetrating magnetospheric electric fields has been seen in mid-and low-latitude ionospheric data sets. The growing interest in substorm dynamics also requires a much better assessment of the electric fields responsible for particle injections. Thus we proposed and developed algorithms for extracting electric fields from particle data taken in the Earth's magnetosphere. As a test of the effectiveness of these new techniques, we analyzed data taken by the AMPTE/CCE spacecraft in equatorial orbit from 1984 to 1989.
Document ID
19950016528
Acquisition Source
Legacy CDMS
Document Type
Contractor Report (CR)
Authors
Eastman, Timothy E. (Maryland Univ. Baltimore County Catonsville, MD, United States)
Sheldon, R. (Maryland Univ. Baltimore County Catonsville, MD, United States)
Hamilton, D. (Maryland Univ. Baltimore County Catonsville, MD, United States)
Date Acquired
September 6, 2013
Publication Date
February 14, 1995
Subject Category
Geophysics
Report/Patent Number
NAS 1.26:197392
NASA-CR-197392
Accession Number
95N22945
Funding Number(s)
CONTRACT_GRANT: NAG5-1558
Distribution Limits
Public
Copyright
Work of the US Gov. Public Use Permitted.

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