The 2022 Starlink Geomagnetic Storms: Global Thermospheric Response to a High-Latitude Ionospheric Driver
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https://hdl.handle.net/10037/35091Date
2024-02-01Type
Journal articleTidsskriftartikkel
Peer reviewed
Author
Billett, D.D.; Sartipzadeh, K.; Ivarsen, Magnus Fagernes; Iorfida, E.; Doornbos, E.; Kalafatoglu Eyiguler, Eyiguler; Pandey, K.; McWilliams, K.A.Abstract
In this study, we present ionospheric observations of field-aligned currents from AMPERE and the ESA Swarm A satellite, in conjunction with high-resolution thermospheric density measurements from accelerometers on board Swarm C and GRACE-FO, for the third and 4 February 2022 geomagnetic storms that led to the loss of 38 Starlink internet satellites. We study the global storm time response of the thermospheric density enhancements, including their decay and latitudinal distribution. We find that the thermospheric density enhances globally in response to high-latitude energy input from the magnetosphere-solar wind system and takes at least a full day to recover to pre-storm density levels. We also find that the greatest density perturbations occur at polar latitudes consistent with the magnetosphere-ionosphere dayside cusp, and that there appeared to be a saturation of the thermospheric density during the geomagnetic storm on the fourth. Our results highlight the critical importance of high-latitude ionospheric observations when diagnosing potentially hazardous conditions for low-Earth-orbit satellites.
Publisher
WileyCitation
Billett, Sartipzadeh, Ivarsen, Iorfida, Doornbos, Kalafatoglu Eyiguler, Pandey, McWilliams. The 2022 Starlink Geomagnetic Storms: Global Thermospheric Response to a High-Latitude Ionospheric Driver. Space Weather. 2024;22(2)Metadata
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