Julia K. Thalmann, Yang Su, Manuela Temmer, Astrid M. Veronig
Published 2016-05-12Version 1
During late October 2014, active region NOAA 2192 caused an unusual high level of solar activity, within an otherwise weak solar cycle. While crossing the solar disk, during a period of 11 days, it was the source of 114 flares of GOES class C1.0 and larger, including 29 M- and 6 X-flares. Surprisingly, none of the major flares (GOES class M5.0 and larger) was accompanied by a coronal mass ejection, contrary to statistical tendencies found in the past. From modeling the coronal magnetic field of NOAA 2192 and its surrounding, we suspect that the cause of the confined character of the flares is the strong surrounding and overlying large-scale magnetic field. Furthermore, we find evidence for multiple magnetic reconnection processes within a single flare, during which electrons were accelerated to unusual high energies.
Comments: 4 pages, 4 figures, accepted for publication in Proceedings IAU Symposium No. S320, "Solar and Stellar Flares and Their Effects on Planets"
The Confined X-class Flares of Solar Active Region 2192
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Magnetic Structure Producing X- and M-Class Solar Flares in Solar Active Region 11158
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