Details

Autor(en) / Beteiligte

• Trenchi, L.
• Fear, R. C.
• Trattner, K. J.
• Mihaljcic, B.
• Fazakerley, A. N.

Titel

A sequence of flux transfer events potentially generated by different generation mechanisms

Ist Teil von

• Journal of geophysical research. Space physics, 2016-09, Vol.121 (9), p.8624-8639

Ort / Verlag

Washington: Blackwell Publishing Ltd

Erscheinungsjahr

2016

Quelle

Wiley-Blackwell Journals

Beschreibungen/Notizen

• Flux transfer events (FTEs) are magnetic structures generated by time‐varying reconnection at the dayside magnetopause. Understanding their generation mechanism is important, because it is necessary in order to understand the global contribution of FTEs to the convection process. We present observations of several FTEs sequentially observed by Cluster at the subsolar magnetopause. Cluster detected also several reconnection jets, which seem to be systematically associated with the trailing edge of the FTEs. This association is expected only in the FTEs formed by single X line reconnection but could be compatible also with the multiple X line model, when reconnection at one X line is dominant. Instead, it does not seem compatible with original mechanism proposed by Russell and Elphic (1978). For a large FTE, not associated with any reconnection jet, the Grad‐Shafranov reconstruction obtained from Cluster 1 data recovers a flux rope, indicative of multiple X line reconnection. This same FTE was detected also by Cluster 3, which observed an asymmetric signature in the magnetic field component normal to the magnetopause. We show that this asymmetric signature was caused by an outward motion of the magnetopause. The orientation of the other FTEs, obtained from a Grad‐Shafranov optimization, shows considerable spread, despite the relatively steady conditions. Our interpretation is that a combination of single and multiple X line reconnection generated these FTEs. The FTEs in the first part of the crossing, associated with reconnection jets, are generated by the single X line model and may therefore not satisfy the Grad‐Shafranov assumptions so well. Instead, the last FTE, slower, bigger, and well separated from the previous ones, may be formed by multiple X line reconnection. Key Points Reconnection jets are systematically associated with the trailing edge of these FTEs; this suggests the single X line generation mechanism The FTEs observed during this event are potentially generated by different generation mechanisms: single X line and multiple X lines The asymmetric Bn signature observed during one FTE is probably explained by an outward motion of the magnetopause