Hasegawa, H; Wang, J; Dunlop, MW; Pu, ZY; Zhang, QH; Lavraud, B; Taylor, MGGT; ... Bogdanova, YV; + view all Hasegawa, H; Wang, J; Dunlop, MW; Pu, ZY; Zhang, QH; Lavraud, B; Taylor, MGGT; Constantinescu, OD; Berchem, J; Angelopoulos, V; McFadden, JP; Frey, HU; Panov, EV; Volwerk, M; Bogdanova, YV; - view fewer (2010) Evidence for a flux transfer event generated by multiple X-line reconnection at the magnetopause. Geophysical Research Letters , 37 , Article L16101. 10.1029/2010GL044219.

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Abstract

Magnetic flux transfer events (FTEs) are signatures of unsteady magnetic reconnection, often observed at planetary magnetopauses. Their generation mechanism, a key ingredient determining how they regulate the transfer of solar wind energy into magnetospheres, is still largely unknown. We report THEMIS spacecraft observations on 2007-06-14 of an FTE generated by multiple X-line reconnection at the dayside magnetopause. The evidence consists of (1) two oppositely-directed ion jets converging toward the FTE that was slowly moving southward, (2) the cross-section of the FTE core being elongated along the magnetopause normal, probably squeezed by the oppositely-directed jets, and (3) bidirectional field-aligned fluxes of energetic electrons in the magnetosheath, indicating reconnection on both sides of the FTE. The observations agree well with a global magnetohydrodynamic model of the FTE generation under large geomagnetic dipole tilt, which implies the efficiency of magnetic flux transport into the magnetotail being lower for larger dipole tilt.

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