Thermospheric wind response to a sudden ionospheric variation in the trough : event at a pseudo-breakup during geomagnetically quiet conditions
Oyama, Shin-ichiro; Vanhamäki, Heikki; Cai, Lei; Aikio, Anita; Rietveld, Michael; Ogawa, Yasunobu; Raita, Tero; Kellinsalmi, Mirjam; Kauristie, Kirsti; Kozelov, Boris; Shinbori, Atsuki; Shiokawa, Kazuo; Tsuda, Takuo T.; Sakanoi, Takeshi (2022-10-18)
Oyama, Si., Vanhamäki, H., Cai, L. et al. Thermospheric wind response to a sudden ionospheric variation in the trough: event at a pseudo-breakup during geomagnetically quiet conditions. Earth Planets Space 74, 154 (2022). https://doi.org/10.1186/s40623-022-01710-6
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https://urn.fi/URN:NBN:fi-fe2023061254088
Tiivistelmä
Abstract
The thermospheric wind response to a sudden westward turning of the ion velocity at a high latitude was studied by analyzing data obtained with a Fabry–Perot interferometer (FPI; 630 nm), Dynasonde, and Swarm A & C satellites during a conjunction event. The event occurred during a geomagnetically quiet period (Kp = 0 +) through the night, but some auroral activity occurred in the north. The collocated FPI and Dynasonde measured the thermospheric wind (U) and ionospheric plasma velocity (V), respectively, in the F region at the equatorward trough edge. A notable scientific message from this study is the possible role of thermospheric wind in the energy dissipation process at F-region altitude. The FPI thermospheric wind did not instantly follow a sudden V change due to thermospheric inertia in the F region. At a pseudo-breakup during the event, V suddenly changed direction from eastward to westward within 10 min. U was concurrently accelerated westward, but its development was more gradual than that of V, with U remaining eastward for a while after the pseudo-breakup. The delay of U is attributed to the thermospheric inertia. During this transition interval, U∙V was negative, which would result in more efficient generation of frictional heating than the positive U∙V case. The sign of U∙V, which is related to the relative directions of the neutral wind and plasma drift, is important because of its direct impact on ion-neutral energy exchange during collisions. This becomes especially important during substorm events, where rapid plasma velocity changes are common. The sign of U∙V may be used as an indicator to find the times and locations where thermospheric inertia plays a role in the energy dissipation process.
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