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Imaging Observations of Magnetic Reconnection in a Solar Eruptive Flare View all abstracts by submitter

Ying Li   Submitted: 2017-01-04 12:43

Solar flares are one of the most energetic events in the solar atmosphere. It is widely accepted that flares are powered by magnetic reconnection in the corona. An eruptive flare is usually accompanied by a coronal mass ejection, both of which are probably driven by the eruption of a magnetic flux rope (MFR). Here we report an eruptive flare on 2016 March 23 observed by the Atmospheric Imaging Assembly on board the Solar Dynamics Observatory. The extreme-ultraviolet imaging observations exhibit the clear rise and eruption of an MFR. In particular, the observations reveal solid evidence for magnetic reconnection from both the corona and chromosphere during the flare. Moreover, weak reconnection is observed before the start of the flare. We find that the preflare weak reconnection is of tether-cutting type and helps the MFR to rise slowly. Induced by a further rise of the MFR, strong reconnection occurs in the rise phases of the flare, which is temporally related to the MFR eruption. We also find that the magnetic reconnection is more of 3D-type in the early phase, as manifested in a strong-to-weak shear transition in flare loops, and becomes more 2D-like in the later phase, as shown by the apparent rising motion of an arcade of flare loops.

Authors: Y. Li, X. Sun, M. D. Ding, J. Qiu, E. R. Priest
Projects: SDO-AIA

Publication Status: ApJ accepted.
Last Modified: 2017-01-11 12:10
Go to main E-Print page   	The role of diffusion in the transport of energetic electrons during solar flares  Flux-Rope Twist in Eruptive Flares and CMEs: due to Zipper and Main-Phase Reconnection  Edit Entry  Download Preprint  Submitter's Homepage Delete Entry 

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