Ultralow Frequency Electrodynamics of Magnetosphere‐Ionosphere Interactions Near the Plasmapause During Substorms

Abstract

Ultra low frequency (ULF) electromagnetic waves have been regularly observed by the CRRES, Cluster, and Van Allen Probes satellites near the plasmapause during substorms. Frequently, the small‐scale waves are detected together with a large‐scale quasi‐stationary electric field collocating with mesoscale plasma flows penetrating into the plasmasphere. These observations suggest that the plasmapause plays an important role in the conversion of the kinetic energy of energetic particles moving toward the Earth from the reconnection site in the magnetotail into a large‐scale electric field. The field penetrates along the magnetic field into the ionosphere and generates small‐scale, shear Alfvén waves and field‐aligned currents. These waves can form a standing pattern between the hemispheres, and under certain conditions, they can be amplified by interactions with the ionosphere. This scenario is verified in the paper by reproducing with simulations structure and amplitude of the ULF waves observed by the Van Allen Probe‐A satellite near the plasmapause on 17 March 2015. The simulations are based on the reduced two‐fluid MHD model describing generation of ULF Alfvén waves and field‐aligned currents by the ionospheric feedback instability driven by the large‐scale electric field. Simulations demonstrate good, quantitative agreement between spatial structure, frequency, and amplitude of the simulated waves and the observations.

Document Details

Document Type

Pub Defense Publication

Publication Date

Sep 01, 2018

Source ID

10.1029/2018ja025899

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