Unveiling the magnetic nature of chromospheric vortices

arXiv: Solar and Stellar Astrophysics Pub Date : 2020-06-24 DOI:10.1051/0004-6361/202038360

M. Murabito, J. Shetye, M. Stangalini, E. Verwichte, T. Arber, I. Ermolli, F. Giorgi, T. Goffrey

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引用次数: 6

Abstract

Vortex structures in the Sun's chromosphere are believed to channel energy between different layers of the solar atmosphere. We investigate the nature and dynamics of two small-scale quiet-Sun rotating structures in the chromosphere. We analyse two chromospheric structures that show clear rotational patterns in spectropolarimetric observations taken with the Interferometric Bidimensional Spectrometer (IBIS) at the Ca II 8542 A~ line. We present the detection of spectropolarimetric signals that manifest the magnetic nature of rotating structures in the chromosphere. Our observations show two long-lived structures of plasma that each rotate clockwise inside a 10 arcsec$^{2}$~ quiet-Sun region. Their circular polarization signals are 5-10 times above the noise level. Line-of-sight Doppler velocity and horizontal velocity maps from the observations reveal clear plasma flows at and around the two structures. An MHD simulation shows these two structures are plausibly magnetically connected. Wave analysis suggests that the observed rotational vortex pattern could be due to a combination of slow actual rotation and a faster azimuthal phase speed pattern of a magneto-acoustic mode. Our results imply that the vortex structures observed in the Sun's chromosphere are magnetic in nature and that they can be connected locally through the chromosphere.

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揭示色球涡旋的磁性本质

太阳色球层中的涡旋结构被认为在太阳大气层的不同层之间传递能量。我们研究了色球层中两个小尺度的安静太阳旋转结构的性质和动力学。我们分析了用干涉二维光谱仪(IBIS)在Ca II 8542 A~线上进行的光谱偏振观测中显示出明显旋转模式的两个色球结构。我们提出了光谱偏振信号的检测，表明在色球中旋转结构的磁性性质。我们的观测显示，在一个10弧秒$^{2}$~安静的太阳区域内，有两个长寿命的等离子体结构，它们各自顺时针旋转。它们的圆偏振信号是噪声级的5-10倍。观测所得的视线多普勒速度图和水平速度图清楚地揭示了两个结构内部和周围的等离子体流动。MHD模拟显示，这两个结构似乎是磁连接的。波浪分析表明，观测到的旋转涡旋模式可能是由于缓慢的实际旋转和更快的磁声模式的方位角相位速度模式的结合。我们的结果表明，在太阳色球层中观察到的涡旋结构本质上是磁性的，它们可以通过色球层局部连接。

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arXiv: Solar and Stellar Astrophysics

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