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A space hurricane over the Earth's polar ionosphere.

Qing-He ZhangYong-Liang ZhangChi WangKjellmar OksavikLarry R LyonsMichael LockwoodHui-Gen YangBin-Bin TangJøran Idar MoenZan-Yang XingYu-Zhang MaXiang-Yu WangYa-Fei NingLi-Dong Xia
Published in: Nature communications (2021)
In Earth's low atmosphere, hurricanes are destructive due to their great size, strong spiral winds with shears, and intense rain/precipitation. However, disturbances resembling hurricanes have not been detected in Earth's upper atmosphere. Here, we report a long-lasting space hurricane in the polar ionosphere and magnetosphere during low solar and otherwise low geomagnetic activity. This hurricane shows strong circular horizontal plasma flow with shears, a nearly zero-flow center, and a coincident cyclone-shaped aurora caused by strong electron precipitation associated with intense upward magnetic field-aligned currents. Near the center, precipitating electrons were substantially accelerated to ~10 keV. The hurricane imparted large energy and momentum deposition into the ionosphere despite otherwise extremely quiet conditions. The observations and simulations reveal that the space hurricane is generated by steady high-latitude lobe magnetic reconnection and current continuity during a several hour period of northward interplanetary magnetic field and very low solar wind density and speed.
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