Asnes, A and Taylor, MGGT and Borg, AL and Lavraud, B and Friedel, RWH and Escoubet, CP and Laakso, H and Daly, P and Fazakerley, AN (2008) Multispacecraft observation of electron beam in reconnection region. J GEOPHYS RES-SPACE , 113 (A7) , Article A07S30. 10.1029/2007JA012770.
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On the 18th of August 2002, during a crossing of the near-Earth plasma sheet Cluster observed an ion flow burst, caused by a near-Earth reconnection event. Cluster observed a tailward bulk flow which reverse to earthward flow, indicating a close passage of the diffusion region. We show that reversals in B-Z and B-Y are consistent with reconnection. During the event, a short duration burst of electrons in the range of a few keV up to more than 100 keV are observed streaming away from the reconnection region. The accelerated electrons were aligned with the magnetic field, streaming tailward, and were observed simultaneously by all four spacecraft located on both the northern and southern side of the current sheet. The four Cluster spacecraft, separated by similar to 3700 km, observe the electrons for a time period of similar to 60 s, indicating the burst to be a temporal rather than localized feature. A second burst of tailward accelerated electrons observed for similar to 40 s was observed by Cluster 1 and 2 upon entering the earthward outflow region. The second beam thus appear to be directed toward the X-line. The flux levels of the energetic electron bursts exceed those of the ambient plasma sheet by a factor 2 - 4. In general, the highest energetic electron fluxes during this event were observed in the earthward outflow region. Observations indicate that reconnection operates on closed plasma sheet field lines in this event and does not reach lobe field lines.
|Title:||Multispacecraft observation of electron beam in reconnection region|
|Keywords:||MAGNETIC RECONNECTION, PARTICLE-ACCELERATION, CLUSTER, MAGNETOPAUSE, SUBSTORM, MODEL|
|UCL classification:||UCL > School of BEAMS > Faculty of Maths and Physical Sciences > Space and Climate Physics|
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