Flare-productive active regions

IF 23 1区 物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS
Shin Toriumi, Haimin Wang
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引用次数: 138

Abstract

Strong solar flares and coronal mass ejections, here defined not only as the bursts of electromagnetic radiation but as the entire process in which magnetic energy is released through magnetic reconnection and plasma instability, emanate from active regions (ARs) in which high magnetic non-potentiality resides in a wide variety of forms. This review focuses on the formation and evolution of flare-productive ARs from both observational and theoretical points of view. Starting from a general introduction of the genesis of ARs and solar flares, we give an overview of the key observational features during the long-term evolution in the pre-flare state, the rapid changes in the magnetic field associated with the flare occurrence, and the physical mechanisms behind these phenomena. Our picture of flare-productive ARs is summarized as follows: subject to the turbulent convection, the rising magnetic flux in the interior deforms into a complex structure and gains high non-potentiality; as the flux appears on the surface, an AR with large free magnetic energy and helicity is built, which is represented by \(\delta \)-sunspots, sheared polarity inversion lines, magnetic flux ropes, etc; the flare occurs when sufficient magnetic energy has accumulated, and the drastic coronal evolution affects magnetic fields even in the photosphere. We show that the improvement of observational instruments and modeling capabilities has significantly advanced our understanding in the last decades. Finally, we discuss the outstanding issues and future perspective and further broaden our scope to the possible applications of our knowledge to space-weather forecasting, extreme events in history, and corresponding stellar activities.

Abstract Image

耀斑产生活跃区域
强烈的太阳耀斑和日冕物质抛射,在这里不仅被定义为电磁辐射的爆发,而且被定义为通过磁重联和等离子体不稳定释放磁能的整个过程,这些活动区域(ARs)以各种各样的形式存在着高磁非电位。本文从观测和理论两方面对产生耀斑的氩离子的形成和演化进行了综述。本文从简要介绍ARs和太阳耀斑的成因入手,综述了耀斑前期长期演化过程中的主要观测特征、与耀斑发生相关的磁场快速变化,以及这些现象背后的物理机制。我们对产生耀斑的氩弧焊的图像进行了总结:在湍流对流的作用下,内部上升的磁通量变形成复杂的结构并获得高的非势态;当磁通量出现在表面时,构建了一个自由磁能大、螺旋度大的磁场,其表示为\(\delta \) -太阳黑子、剪切极性反转线、磁通量绳等;耀斑发生在足够的磁能积累时,剧烈的日冕演化甚至会影响光球层的磁场。我们表明,在过去的几十年里,观测仪器和建模能力的改进大大提高了我们的认识。最后,我们讨论了突出的问题和未来的展望,并进一步扩大了我们的知识在空间天气预报、历史极端事件和相应的恒星活动方面的可能应用范围。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Living Reviews in Solar Physics
Living Reviews in Solar Physics Earth and Planetary Sciences-Space and Planetary Science
CiteScore
41.90
自引率
1.40%
发文量
3
审稿时长
20 weeks
期刊介绍: Living Reviews in Solar Physics is a peer-reviewed, full open access, and exclusively online journal, publishing freely available reviews of research in all areas of solar and heliospheric physics. Articles are solicited from leading authorities and are directed towards the scientific community at or above the graduate-student level. The articles in Living Reviews provide critical reviews of the current state of research in the fields they cover. They evaluate existing work, place it in a meaningful context, and suggest areas where more work and new results are needed. Articles also offer annotated insights into the key literature and describe other available resources. Living Reviews is unique in maintaining a suite of high-quality reviews, which are kept up-to-date by the authors. This is the meaning of the word "living" in the journal''s title.
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