Effects of magnetospheric electric fields and neutral winds on the low-middle latitude ionosphere during the March 20-21, 1990, storm

Details Effects of magnetospheric electric fields and neutral winds on the low-middle latitude ionosphere during the March 20-21, 1990, storm Effects of magnetospheric electric fields and neutral winds on the low-middle latitude ionosphere during the March 20-21, 1990, storm

Nov 1993

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1993jgr....9819133b&link_type=abstract

Journal of Geophysical Research (ISSN 0148-0227), vol. 98, no. A11, p. 19,133-19,140

Physics

33

Electric Fields, Electron Density (Concentration), F 2 Region, Ionospheric Conductivity, Ionospheric Drift, Magnetic Storms, Magnetosphere-Ionosphere Coupling, Polar Substorms, Wind (Meteorology), Advection, Geomagnetism, Incoherent Scatter Radar, Ionization

Scientific paper

During the geomagnetic storm of March 20-21, 1990, substorm activity is clearly evident in magnetometer data collected during the night at the middle- and low-latitude stations Fredericksburg (38.2 deg N, 282.6 deg E) and San Juan (18.1 deg N, 293.8 deg E). At the same time, incoherent scatter radars at Millstone Hill (42.6 deg N, 288.5 deg E) and Arecibo (18.3 deg N, 293.25 deg E) observed ionospheric storm effects, which included the penetration of magnetospheric electric fields and disturbance neutral winds to the latitude of Arecibo. The eastward electric fields associated with the substorm disturbances result in increases in the F2 peak height (hmF2) at Arecibo. Decreases in hmF2 follow as a result of increased downward diffusion and/or the effects of an ion drag induced poleward wind. During the intervals between the electric field penetration events, equatorward surges in the neutral wind result in westward electric fiedls by the disturbance dynamo mechanism. At these times the horizontal ionization drifts are not as strong as the neutral winds, apparently because of a partial shorting out of the dynamo electric fields as a result of some E region conductivity. The anticorrelation between the components of the ion drift parallel (V(sub parallel)) and perpendicular to the magnetic field in the northward direction (V(sub perpendicular to N)) results in approximately horizontal (constant altitude) ion drift motion throughout the interval. Calculations of spatial gradients in the electron density and in the components of the ion velocity are carried out using the multi-directional incoherent scatter observations at Arecibo. The results show that the variations in electron density during this disturbed interval follow closely the motion term in the F2 region continuity equation, with both advection of spatial gradients and divergence of the ion flow important at times.

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