Autor: |
Billett, D. D., Wild, J. A., Grocott, A., Aruliah, A. L., Ronksley, A. M., Walach, M.‐T., Lester, M. |
Předmět: |
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Zdroj: |
Journal of Geophysical Research. Space Physics; Aug2019, Vol. 124 Issue 8, p6950-6960, 11p |
Abstrakt: |
It has previously been shown that in the high‐latitude thermosphere, sudden changes in plasma velocity (such as those due to changes in interplanetary magnetic field) are not immediately propagated into the neutral gas via the ion‐drag force. This is due to the neutral particles (O, O2, and N2) constituting the bulk mass of the thermospheric altitude range and thus holding on to residual inertia from a previous level of geomagnetic forcing. This means that consistent forcing (or dragging) from the ionospheric plasma is required, over a period of time, long enough for the neutrals to reach an equilibrium with regard to ion drag. Furthermore, mesoscale variations in the plasma convection morphology, solar pressure gradients, and other forces indicate that the thermosphere‐ionosphere coupling mechanism will also vary in strength across small spatial scales. Using data from the Super Dual Auroral Radar Network and a Scanning Doppler Imager, a geomagnetically active event was identified, which showed plasma flows clearly imparting momentum to the neutrals. A cross‐correlation analysis determined that the average time for the neutral winds to accelerate fully into the direction of ion drag was 75 min, but crucially, this time varied by up to 30 min (between 67 and 97 min) within a 1,000‐km field of view at an altitude of around 250 km. It is clear from this that the mesoscale structure of both the plasma and neutrals has a significant effect on ion‐neutral coupling strength and thus energy transfer in the thermosphere. Key Points: The delay of thermospheric neutral winds fully responding to changes in ion‐drag is examined for locations separated by about 100 kmIn this study, neutrals took 67–97 min to fully change velocity after changes in the ionospheric plasma, for regions within a 1,000‐km FOVThe neutral wind flywheel effect is significant when the neutral velocity begins to overtake that of the plasma [ABSTRACT FROM AUTHOR] |
Databáze: |
Complementary Index |
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