A question raised from the observation of dynamic cusp formation: When and where does particle acceleration occur? |
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Authors: | Linhui Sui Gordon D Holman Brian R Dennis |
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Institution: | 1. Department of Physics, Catholic University of America, Washington, DC 20064, USA;2. Heliophysics Science Division, Code 671, NASA Goddard Space Flight Center, Greenbelt, MD 20771, USA |
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Abstract: | We present observations of a C9.4 flare on 2002 June 2 in EUV (TRACE) and X-rays (RHESSI). The multiwavelength data reveal: (1) the involvement of a quadrupole magnetic configuration; (2) loop expansion and ribbon motion in the pre-impulsive phase; (3) gradual formation of a new compact loop with a long cusp at the top during the impulsive phase of the flare; (4) appearance of a large, twisted loop above the cusp expanding outward immediately after the hard X-ray peak; and (5) X-ray emission observed only from the new compact loop and the cusp. In particular, the gradual formation of an EUV cusp feature is very clear. The observations also reveal the timing of the cusp formation and particle acceleration: most of the impulsive hard X-rays (>25 keV) were emitted before the cusp was seen. This suggests that fast reconnection occurred during the restructuring of the magnetic configuration, resulting in more efficient particle acceleration, while the reconnection slowed after the cusp was completely formed and the magnetic geometry was stabilized. This observation is consistent with the observations obtained with Yohkoh/Soft X-ray Telescope (SXT) that soft X-ray cusp structures only appear after the major impulsive energy release in solar flares. These observations have important implications for the modeling of magnetic reconnection and particle acceleration. |
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Keywords: | Sun: flares Sun: magnetic reconnection Sun: X-rays Sun: coronal Sun: coronal loops |
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