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JOURNAL OF GEOPHYSICAL RESEARCH,
VOL. 112,
A08310,
doi:10.1029/2007JA012326,
2007
Variations in the low- and middle-latitude topside ion concentration observed by DMSP during superstorm events
R. A. Heelis
Hanson Center for Space Sciences, University of Texas at Dallas, Richardson, Texas, USA
W. R. Coley
Hanson Center for Space Sciences, University of Texas at Dallas, Richardson, Texas, USA
Abstract
Observations of the topside ion number density by the DMSP satellites on the dayside near 0930 LT and near dusk describe a
characteristic evolution during the course of three superstorm events in November 2001, November 2003, and November 2004.
Density enhancements at middle latitudes and at the equator may be identified as separate features that may appear together
but can evolve independently. These characteristics are consistent with the action of both upward (outward) E × B drifts and equatorward neutral winds and it is suggested that both F region drivers are required to reproduce the observed behavior on these occasions. Upward excursions of the E × B drift at the equator may be short-lived compared to the satellite orbit period of about 100 min but may also exist for longer
periods under the influence of penetration fields and modified dynamo fields. Upward drifts at middle latitudes may be induced
by meridional winds and by the high-latitude convection pattern as it expands to latitudes as low as 40 degrees magnetic.
Received 6
February
2007;
accepted 4
June
2007;
published 31
August
2007.
Keywords: storms;
ionosphere;
electrodynamics;
topside.
Index Terms: 2441 Ionosphere: Ionospheric storms (7949); 2481 Ionosphere: Topside ionosphere; 2415 Ionosphere: Equatorial ionosphere; 2443 Ionosphere: Midlatitude ionosphere; 2437 Ionosphere: Ionospheric dynamics.
Read Full Article (file size: 713690 bytes) Cited by
Citation: Heelis, R. A., and W. R. Coley
(2007),
Variations in the low- and middle-latitude topside ion concentration observed by DMSP during superstorm events,
J. Geophys. Res.,
112,
A08310,
doi:10.1029/2007JA012326.
Copyright 2007 by the American Geophysical Union.
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