Calculated nighttime eastward plasma drift velocities at low latitudes and their solar cycle dependence
Abstract
After calculating ambient electron densities as a function of altitude, latitude and local time, a simplified expression is used to calculate F-region eastward plasma drifts given a zonal neutral wind model. The derived eastward plasma drift on a magnetic flux tube is examined as a function of the flux tube apex height. If the neutral wind is assumed to be independent of latitude the plasma drift maximizes along the flux tube which intercepts the F-region peak concentration at the Appleton anomaly. Above this altitude the velocity decreases to reflect a decrease in the flux tube integrated F-region Pedersen conductivity. For a latitude dependent wind the plasma drift tends to maximize along the flux tube which intercepts the F-peak at the dip equator. Above this altitude the drift decreases to reflect the latitude distribution of the wind.
- Publication:
-
Annales Geophysicae
- Pub Date:
- December 1987
- Bibcode:
- 1987AnGeo...5..435A
- Keywords:
-
- Drift Rate;
- F Region;
- Ionospheric Electron Density;
- Plasma Drift;
- Solar Terrestrial Interactions;
- Dynamics Explorer 2 Satellite;
- Dynamo Theory;
- Solar Cycles;
- Tropical Regions;
- Wind Velocity