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Evidence for a flux transfer event generated by multiple X-line reconnection at the magnetopause

by Volwerk, M. , Hasegawa, H. , Berchem, J. , Panov, E. V. , Pu, Z. Y. , Wang, J. , McFadden, J. P. , Constantinescu, O. D. , Angelopoulos, V. , Bogdanova, Y. V. , Taylor, M. G. G. T. , Frey, H. U. , Dunlop, M. W. , Lavraud, B. , Zhang, Q.-H.

in Atmospheric sciences / Camber / Dipoles / Earth sciences / Earth, ocean, space / energy transfer / Exact sciences and technology / Fluctuations / flux transfer event / Geophysics / Jets / Magnetic flux / magnetic reconnection / Magnetism / Magnetopause / Signatures / Solar energy / Spacecraft / Tilt / Wind power

2010

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Evidence for a flux transfer event generated by multiple X-line reconnection at the magnetopause

2010

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Evidence for a flux transfer event generated by multiple X-line reconnection at the magnetopause

2010

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Journal Article

Evidence for a flux transfer event generated by multiple X-line reconnection at the magnetopause

Volwerk, M.,

Hasegawa, H.,

Berchem, J.,

Panov, E. V.,

Pu, Z. Y.,

Wang, J.,

McFadden, J. P.,

Constantinescu, O. D.,

Angelopoulos, V.,

Bogdanova, Y. V.,

Taylor, M. G. G. T.,

Frey, H. U.,

Dunlop, M. W.,

Lavraud, B.,

Zhang, Q.-H.

2010

Overview

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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Publisher

Blackwell Publishing Ltd,American Geophysical Union,John Wiley & Sons, Inc

Subject

Atmospheric sciences

/ Camber

/ Dipoles

/ Earth sciences

/ Earth, ocean, space

/ energy transfer

/ Exact sciences and technology