Slowly positively drifting bursts generated by large-scale magnetic reconnection

IF 5.4 2区 物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS Astronomy & Astrophysics Pub Date : 2024-10-15 DOI:10.1051/0004-6361/202450641
Alena Zemanová, Marian Karlický, Jaroslav Dudík, Jana Kašparová, Ján Rybák
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Abstract

Context. The slowly positively drifting bursts (SPDBs) are rarely observed in radio emission of solar flares.Aims. To understand how the SPDBs are generated, we studied the radio observations at 600–5000 MHz together with the imaging observations made in ultraviolet (UV) and extreme ultraviolet (EUV) during the SPDB-rich C8.7 flare of 2014 May 10 (SOL2014-05-10T0702).Methods. Because the SPDBs propagate towards locations of higher plasma density, we studied their associations with individual flare kernels, located either within the flare core itself, or distributed at longer distances, but connected to the flaring region by large-scale hot loops. For each kernel we constructed light curves using 1600 Å and 304 Å observations and compared these light curves with the temporal evolution of radio flux at 1190 MHz, representing all observed groups of SPDBs. We also analysed the UV/EUV observations to understand the evolution of magnetic connectivity during the flare.Results. The flare starts with a growing hot sigmoid observed in 131 Å. As the sigmoid evolves, it extends to and interacts with a half dome present within the active region. The evolving sigmoid reconnects at the respective hyperbolic flux tube, producing large-scale magnetic connections and an EUV swirl. Three groups of SPDBs are observed during this large-scale magnetic reconnection, along with a group of narrow-band type III bursts. The light curves of a kernel corresponding to the footpoint of spine line analogue show good agreement with the radio flux at 1190 MHz, indicating that the SPDBs are produced by the large-scale magnetic reconnection at the half dome. In addition, one of the kernels appeared in the neighbouring active region and also showed a similar evolution to the radio flux, implying that beams of accelerated particles can synchronize radio and UV/EUV light curves across relatively large distances.
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大尺度磁重联产生的缓慢正向漂移脉冲串
背景。在太阳耀斑的射电辐射中很少观测到缓慢正漂移爆发(SPDBs)。为了了解SPDB是如何产生的,我们在2014年5月10日发生的富含SPDB的C8.7耀斑(SOL2014-05-10T0702)期间,对600-5000 MHz的射电观测数据以及紫外线(UV)和极紫外线(EUV)成像观测数据进行了研究。由于 SPDB 向等离子体密度较高的位置传播,我们研究了它们与单个耀斑核的关联,这些耀斑核或位于耀斑核心内,或分布在较远距离,但通过大尺度热环与耀斑区域相连。对于每个内核,我们利用 1600 Å 和 304 Å 观测数据构建了光变曲线,并将这些光变曲线与 1190 MHz 射电通量的时间演变进行了比较,后者代表了所有观测到的 SPDBs 组。我们还分析了紫外/紫外观测数据,以了解耀斑期间磁连接的演变。耀斑开始时,在 131 Å 波段观测到了一个不断增长的热半圆。不断演化的西格米线在各自的双曲通量管处重新连接,产生大尺度磁连接和超紫外漩涡。在这次大尺度磁再连接过程中,观测到了三组 SPDB,以及一组窄带 III 型爆发。与脊线模拟脚点相对应的一个核的光曲线与 1190 MHz 的射电通量显示出良好的一致性,表明 SPDBs 是由半穹顶处的大尺度磁再连接产生的。此外,其中一个核出现在邻近的活动区,也显示出与射电通量相似的演变过程,这意味着加速粒子束可以跨越相对较远的距离同步射电和紫外/紫外光曲线。
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来源期刊
Astronomy & Astrophysics
Astronomy & Astrophysics 地学天文-天文与天体物理
CiteScore
10.20
自引率
27.70%
发文量
2105
审稿时长
1-2 weeks
期刊介绍: Astronomy & Astrophysics is an international Journal that publishes papers on all aspects of astronomy and astrophysics (theoretical, observational, and instrumental) independently of the techniques used to obtain the results.
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