利用埃勒曼炸弹和 Hα 喷射对活动区站点的光谱研究:色球层。拱形灯丝系统

IF 0.5 4区 物理与天体物理 Q4 ASTRONOMY & ASTROPHYSICS
M. N. Pasechnik
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引用次数: 0

摘要

讨论了对 NOAA 11 024 活动区一个地点的 Hα 线进行光谱观测分析的结果。所研究的地点(长度为 10 毫米)位于新出现的蛇形磁流区域。在其上形成了一个拱丝系统(AFS),在其下出现并发展了一个埃勒曼弹(EB),并在距离 EB 约 7.2 毫米处形成了一个孔隙。研究了 AFS 的演化过程,并对观测期间在其磁环上形成的所有 Hα 喷射的形成和发展进行了调查。高空间分辨率(约 1″)和高时间分辨率(约 3 秒)的光谱数据是 2009 年 7 月 4 日利用 THEMIS 法国-意大利太阳望远镜(西班牙特内里费岛)获得的。观测时间为 20 分钟(世界标准时间 9:52-10:11)。我们使用了包含 Hα 色球层线中心部分的光谱区。在所有光谱中,吸收线的长波长翼和短波长翼都能看到 Hα 喷射(浪涌)。研究了斯托克斯 I 曲线形状的变化,这些变化多种多样,与未受扰动色球层的曲线明显不同。根据抛射是向上移动还是向下移动,与之相对应的剖面成分被投射到蓝线翼还是红线翼上。在接近观测终点时,会出现大幅拓宽的双叶剖面,这表明附近同时存在向下和向上的等离子体流。观测发现,浪涌可能由多个喷流组成,这些喷流是在连续和周期性的磁性重连接过程中形成的。利用剖面成分的多普勒偏移来计算浪涌中色球物质的视线速度(Vlos)。分析了涌流射流在其最大强度处沿横截面的 Vlos 变化。喷流的 Vlos 各不相同,可能取决于涌流中的磁场结构和周围环境。喷流的运动方向也不同,因为这取决于浪涌的发展阶段。大多数 Vlos 变化曲线由若干段组成。这表明大喷流是由多个小喷流组成的,即它们具有纤维结构。升流和降流往往同时出现,并且在时间上与 EB 亮度的增加相吻合。在其中一个涌流中,等离子体的涡旋运动持续了大约 3 分钟,光谱中的倾斜暗条纹就是证明。在 EB 亮度最大的瞬间,在所研究的 AR 地点有 7 个等离子体浪涌,其中 3 个浪涌的等离子体向下运动的 Vlos 速度高达 77 千米/秒,5 个浪涌的等离子体向上运动的 Vlos 速度更低,为-35 千米/秒。在我们的观测过程中,色球层物质在涌流中的最大上升速度达到-110千米/秒,下降速度达到90千米/秒。在磁环的上部,等离子体的速度在-25千米/秒和22千米/秒之间变化。在没有活动地层的地点,Vlos 值不超过 ±2 km/s。研究还分析了 AFS 演化过程与 EB 发展阶段是否相关。这项研究是在对高空间和时间分辨率观测数据进行详细分析的基础上进行的,这使作者能够更好地了解埃勒曼弹出现和发展的拱丝系统的演变动态,并揭示在其磁环中形成的浪涌的形成和发展特征。它们很可能是连续和周期性磁性重新连接的结果,与新蛇形磁通量的出现有关,并在其磁环与活跃区域周围或磁通量本身的磁环之间的原有磁场相互作用时发生。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

A Spectral Study of Active Region Site with an Ellerman Bomb and Hα Ejections: Chromosphere. Arch Filament System

A Spectral Study of Active Region Site with an Ellerman Bomb and Hα Ejections: Chromosphere. Arch Filament System

The results of the spectral observation analysis in the Hα line of a site of active region NOAA 11 024, which has been in the main phase of development given its sharply increased activity, are discussed. The studied site (its length is 10 Mm) has been located in the region of a new serpentine magnetic flow emergence. An arch filament system (AFS) has been formed on it, under which an Ellerman bomb (EB) emerged and developed, and a pore formed at a distance of approximately 7.2 Mm from the EB. The evolution of the AFS is studied, and the formation and development of all Hα-ejections that formed in its magnetic loops during the observations are investigated. Spectral data with high spatial (approximately 1″) and temporal (approximately 3 s) resolution were obtained with the THEMIS French–Italian solar telescope (Tenerife, Spain) on July 4, 2009. The observation time is 20 min (to 9:52–10:11 UT). We use the spectral region that contains the central part of the Hα chromospheric line. In all spectra, Hα ejections (surges) are visible both in the long wavelength and short wavelength wings of the absorption line. The changes in the Stokes I profiles shape are studied, which are very diverse and appreciably different from the profile for the undisturbed chromosphere. Depending on whether the ejection moved to the upward direction or to the downward one, the profile component corresponding to it is projected onto the blue or red line wing. Substantially broadened and dual lobed profiles appear close to the end of the observations, which indicates that both downward and upward plasma flows exist nearby. It is found that surges can be comprised of several jets that are formed during successive and periodic magnetic reconnections. Doppler shifts of the profile components are used to calculate the line-of-sight velocities (Vlos) of chromospheric matter in surges. The changes in the Vlos along the cross section of the surge jets at the place of their maximum intensity are analyzed. The Vlos of jets are different and probably depend on the magnetic field structure in the surge and the surrounding environment. The direction of jet movement is also different, since it depends on the phase of surge development. Most of the curves of Vlos changes consist of several segments. This indicates that the large jets are composed of several smaller jets, i.e., they had a fibrous structure. The flows of ascending and descending surges often occur simultaneously and coincide in time with the increase of the EB brightness. A vortex motion of the plasma is observed in one of the surges for approximately 3 min, as evidenced by the inclined dark streaks in the spectra. At the instant of the greatest brightness of the EB, there are seven surges in the studied site of AR, and the plasma moves downward with Vlos up to 77 km/s in three of them and upward with a much lower Vlos up to –35 km/s in five of them. During our observations, the maximum upward velocities of the chromospheric matter in the surges reach –110 km/s, and the downward velocities reach 90 km/s. In the upper part of the magnetic loops, the plasma velocities vary between –25 km/s and 22 km/s. The Vlos values in the site without active formations do not exceed ±2 km/s. It is also analyzed whether the processes of AFS evolution and EB development phases are related. The study is based on a detailed analysis of observational data obtained with high spatial and temporal resolutions, which allowed the authors to better understand the dynamics of the evolution of the arch filament system under which an Ellerman bomb has emerged and developed, and to reveal the features of the formation and development of surges that form in its magnetic loops. They are probably the result of successive and periodic magnetic reconnections, which are associated with the emergence of a new serpentine magnetic flux and occur when its loops interact with the preexisting magnetic field surrounding the active region or between the magnetic loops of the flux itself.

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来源期刊
Kinematics and Physics of Celestial Bodies
Kinematics and Physics of Celestial Bodies ASTRONOMY & ASTROPHYSICS-
CiteScore
0.90
自引率
40.00%
发文量
24
审稿时长
>12 weeks
期刊介绍: Kinematics and Physics of Celestial Bodies is an international peer reviewed journal that publishes original regular and review papers on positional and theoretical astronomy, Earth’s rotation and geodynamics, dynamics and physics of bodies of the Solar System, solar physics, physics of stars and interstellar medium, structure and dynamics of the Galaxy, extragalactic astronomy, atmospheric optics and astronomical climate, instruments and devices, and mathematical processing of astronomical information. The journal welcomes manuscripts from all countries in the English or Russian language.
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