Journal
GEOPHYSICAL RESEARCH LETTERS
Volume 44, Issue 1, Pages 5-11Publisher
AMER GEOPHYSICAL UNION
DOI: 10.1002/2016GL072011
Keywords
magnetotail; substorm; current sheet
Categories
Funding
- NASA [NAS5-02099, NNX13AF81G]
- German Ministry for Economy and Technology
- German Aerospace Center (DLR) [50 OC 0302]
- NASA [NNX13AF81G, 475103] Funding Source: Federal RePORTER
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Formation of intense, thin current sheets (i.e., current sheet thinning) is a critical process for magnetospheric substorms, but the kinetic physics of this process remains poorly understood. Using a triangular configuration of the three Time History of Events and Macroscale Interactions during Substorms (THEMIS) spacecraft at the end of 2015 we investigate field-aligned and transverse currents in the magnetotail current sheet around 12 Earth radii downtail. Combining the curlometer technique with direct measurements of ion and electron velocities, we demonstrate that intense, thin current sheets supported by strong electron currents form in this region. Electron field-aligned currents maximize near the neutral plane B-x approximate to 0, attaining magnitudes of approximate to 20nA/m(2). Carried by hot (>1keV) electrons, they generate strong magnetic shear, which contributes up to 20% of the vertical (along the normal direction to the equatorial plane) pressure balance. Electron transverse currents, on the other hand, are carried by the curvature drift of anisotropic, colder (<1keV) electrons and gradually increase during the current sheet thinning. In the events under consideration the thinning process was abruptly terminated by earthward reconnection fronts which have been previously associated with tail reconnection further downtail. It is likely that the thin current sheet properties described herein are similar to conditions further downtail and are linked to the loss of stability and onset of reconnection there. Our findings are likely applicable to thin current sheets in other geophysical and astrophysical settings.
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