High latitude field aligned light ion flows in the topside ionosphere deduced from ion composition and plasma temperatures

Details High latitude field aligned light ion flows in the topside ionosphere deduced from ion composition and plasma temperatures High latitude field aligned light ion flows in the topside ionosphere deduced from ion composition and plasma temperatures

Oct 1993

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1993jatp...55.1605g&link_type=abstract

Journal of Atmospheric and Terrestrial Physics (ISSN 0021-9169), vol. 55, no. 11-12, p. 1605-1617.

Physics

8

F Region, Ionospheric Composition, Ionospheric Drift, Ionospheric Ion Density, Light Ions, Periodic Variations, Plasmasphere, Polar Regions, Vertical Distribution

Scientific paper

Using a comprehensive ionospheric data set comprised of all available ion composition and plasma temperature measurements from satellites, the vertical distributions of ion composition and plasma temperatures are defined from middle latitudes up into the polar cap for summer conditions for altitudes below about 1200 km. These data are sufficient to allow a numerical estimation of the latitudinal variation of the light ion outflows from within the plasmasphere to the polar wind regions. The altitude at which significant light ion outflow begins is found to be lower during solar minimum conditions than during solar maximum. The H(+) outward speeds are of the order of 1 km/s near 1100 km during solar maximum but attain several km/s speeds for solar minimum. He(+) shows a similar altitude development of flow but attains polar cap speeds much less than 1 km/s at altitudes below 1100 km, particularly under solar maximum conditions. Outward flows are also found in the topside F-region for noontime magnetic flux tubes within the plasmasphere.

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