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- Title
Magnetotail Flux Accumulation Leads to Substorm Current Wedge Formation: A Case Study.
- Authors
Xiangning Chu; McPherron, Robert; Tung-Shin Hsu; Angelopoulos, Vassilis; Weygand, James M.; Jiang Liu; Bortnik, Jacob
- Abstract
Reconnection-generated earthward flows, magnetic field dipolarizations, and auroral expansions are related to substorm current wedge (SCW) development. It has been suggested that fieldaligned currents (FACs) within the SCW can be generated by flow vortices, pressure gradients, or both. Observations related to these generation mechanisms differ from one event to another, due to their different locations relative to SCW's central meridian and timing relative to the SCW's evolutionary state. A pattern of in situ observations consistent with these generation mechanisms has yet to emerge. Obtaining such a pattern of in situ observations relies on the satellite locations relative to the FAC driver regions, which are hard to determine because coincident magnetotail observations are sparse. To solve this problem, an SCW inversion technique was used to model the FAC locations and determine the connections between magnetospheric and ionospheric phenomena. Using this technique, the magnetic flux, a parameter that is relatively insensitive to FAC locations, was analyzed during an isolated substorm on February 13, 2008. We compared the temporal variations of the accumulated flux that caused magnetic dipolarization in the SCW and the flux within the auroral poleward boundary. We found them to be in good agreement with the flux transported by earthward flows. This agreement suggests that the accumulation of the magnetic flux leads to the generation of the SCW, causing magnetic dipolarization and auroral poleward expansion. The amount of accumulated flux was found to be positively correlated with the amplitudes of these substorm-related phenomena.
- Subjects
MAGNETOTAILS; MAGNETOSPHERE; FLUX flow; MAGNETIC storms; SPHEROMAKS
- Publication
Journal of Geophysical Research. Space Physics, 2021, Vol 126, Issue 1, p1
- ISSN
2169-9380
- Publication type
Article
- DOI
10.1029/2020JA028342