Thermospheric winds in the auroral oval: Observations of small scale structures and rapid fluctuations by a Doppler Imaging System
Abstract
At high geomagnetic latitudes, thermospheric wind flows are dramatically affected by the combined effects of magnetospheric ion convection and Joule and particle heating. Thermospheric winds have been observed by ground based and space-borne Fabry-Perot interferometers (FPIs). Short period, localized wind fluctuations have always been difficult to resolve with a conventional FPI, due to the limited time and spatial resolution. However, the highest quality wind data obtained by these instruments from the middle and upper thermosphere have implied that thermospheric winds may respond to the combination of strong local ion drag forcing and heating within the auroral oval and polar cap, with spatial scale sizes of 50-500 km, and with time scales as short as 10-30 min. Since the 1982/1983 winter, a prototype Doppler Imaging System (DIS) has been operated at Kiruna (67.84°N, 20.42°E). This instrument maps thermospheric wind flows over a region some 500 km in diameter centred on Kiruna and has observed many interesting features in the thermospheric wind fields. In particular, strong local wind gradients, rapid wind reversals and small scale structures are regularly observed, particularly during geomagnetically disturbed nights.
- Publication:
-
Planetary and Space Science
- Pub Date:
- May 1990
- DOI:
- 10.1016/0032-0633(90)90074-Z
- Bibcode:
- 1990P&SS...38..675B
- Keywords:
-
- Convection Currents;
- Geomagnetic Latitude;
- Magnetospheric Ion Density;
- Ohmic Dissipation;
- Thermosphere;
- Wind Measurement;
- Fabry-Perot Interferometers;
- Resistance Heating;
- Geophysics