Responses of the thermosphere and ionosphere system to concurrent solar flares and geomagnetic storms

We conducted numerical simulations to examine dayside thermosphere and ionosphere responses to concurrent solar flares and a geomagnetic storm during 6–11 September 2017, as well as the interplay of flare and storm effects. We found that E -region electron density response to the flares was much smaller inside the auroral oval than it was outside the auroral oval due to an extra source of ionization by auroral particle precipitation. During quiet times in this period, flare enhanced ionization, which decreased daytime eastward electric fields, caused an initial weakening of the vertical E × B drifts. This weakening of the vertical E × B drifts was on the order of ~20% for an X8.2 flare in this period. During storm times, flare-induced initial changes of the vertical plasma drifts varied between being positive and being negative, depending on latitudes, due to storm-time disturbance dynamo effects. Storm effects also overall weakened flare effects on geopotential height, ionospheric F 2 peak height hmF 2, and ionospheric F 2 peak electron density NmF 2. In addition, storm effects changed the latitudinal distributions of flare effects on hmF 2, NmF 2, vertical plasma drifts, and O/N 2. On the other hand, no major X-class flare occurred shortly before or during the storm. Model simulations indicate that the weaker C- and M-class flares that occurred before and during the storm had a minor effect on the amplitude of the large-scale traveling atmosphere disturbances generated by the storm.

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Author Qian, Liying
Wang, Wenbin
Burns, Alan
Chamberlin, P. C.
Solomon, Stanley C.
Publisher UCAR/NCAR - Library
Publication Date 2020-03-01T00:00:00
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Topic Category geoscientificInformation
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Metadata Date 2025-07-11T19:21:11.937016
Metadata Record Identifier edu.ucar.opensky::articles:23330
Metadata Language eng; USA
Suggested Citation Qian, Liying, Wang, Wenbin, Burns, Alan, Chamberlin, P. C., Solomon, Stanley C.. (2020). Responses of the thermosphere and ionosphere system to concurrent solar flares and geomagnetic storms. UCAR/NCAR - Library. https://n2t.org/ark:/85065/d7ms3tq4. Accessed 02 August 2025.

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