Temporal variations and spatial extent of the electron density enhancements in the polar magnetosphere during geomagnetic storms

In order to understand temporal variations and spatial distributions of plasma density enhancements in the polar magnetosphere during geomagnetic storms, nearly simultaneous observations of storm time electron densities in the polar magnetosphere by the Akebono satellite and ion upflows in the polar...

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Bibliographic Details
Published in:Journal of Geophysical Research: Space Physics 2010-07, Vol.115 (A7), p.n/a
Main Authors: Kitamura, N., Nishimura, Y., Ono, T., Kumamoto, A., Shinbori, A., Iizima, M., Matsuoka, A., Hairston, M. R.
Format: Article
Language:English
Subjects:
Atmospheric sciences
Auroral zone
cusp
DMSP satellites
Electron density
Electrons
Fluxes
Geomagnetic storms
Geomagnetism
ion outflow
Ionosphere
Magnetic storms
Magnetism
Magnetosphere
Magnetospheres
Plasma
Plasma density
Polar caps
Polar ionosphere
polar wind
Satellite observation
Satellites
Spatial distribution
Storms
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Summary:In order to understand temporal variations and spatial distributions of plasma density enhancements in the polar magnetosphere during geomagnetic storms, nearly simultaneous observations of storm time electron densities in the polar magnetosphere by the Akebono satellite and ion upflows in the polar ionosphere by the DMSP satellites were investigated. Akebono observations show that the electron densities were highest (>100 cm−3 at ∼9000 km altitude) from the main to early recovery phases of geomagnetic storms. The regions of enhanced electron density were not localized but widely spread in the polar magnetosphere. Coordinated observations by the DMSP satellites detected ion upflows with large fluxes (∼1010/cm2/s) in and near the cusp, when the electron density enhancements were observed by the Akebono satellite. This result indicates that the storm time electron density enhancements are caused by cleft ion fountain mechanisms from the polar ionosphere. Very low‐energy component (
ISSN:0148-0227
2169-9380
2156-2202
2169-9402
DOI:10.1029/2009JA014499