期刊
MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY
卷 521, 期 3, 页码 3882-3897出版社
OXFORD UNIV PRESS
DOI: 10.1093/mnras/stad759
关键词
Sun: photosphere; Sun: chromosphere; Sun: magnetic fields
The study aims to quantify the conversion of magnetic to thermal energy during a quiet Sun cancellation event and investigate the resulting dynamics from the interaction of opposite-polarity magnetic features. Observations were made using imaging spectroscopy and spectropolarimetry to study a reconnection-related cancellation event and the appearance of a quiet Sun Ellerman bomb (QSEB). The study confirmed the release of magnetic energy during flux cancellation can support heating in the photosphere and lower chromospheric heights.
The focus of this investigation is to quantify the conversion of magnetic to thermal energy initiated by a quiet Sun cancellation event and to explore the resulting dynamics from the interaction of the opposite-polarity magnetic features. We used imaging spectroscopy in the H alpha line, along with spectropolarimetry in the Fe i 6173 angstrom and Ca ii 8542 angstrom lines from the Swedish Solar Telescope (SST) to study a reconnection-related cancellation and the appearance of a quiet Sun Ellerman bomb (QSEB). We observed, for the first time, QSEB signature in both the wings and core of the Fe i 6173 angstrom line. We also found that, at times, the Fe i line-core intensity reaches higher values than the quiet Sun continuum intensity. From FIRTEZ-dz inversions of the Stokes profiles in Fe i and Ca ii lines, we found enhanced temperature, with respect to the quiet Sun values, at the photospheric (log tau(c) = -1.5; similar to 1000 K) and lower chromospheric heights (log tau(c) = -4.5; similar to 360 K). From the calculation of total magnetic energy and thermal energy within these two layers, it was confirmed that the magnetic energy released during the flux cancellation can support heating in the aforesaid height range. Further, the temperature stratification maps enabled us to identify cumulative effects of successive reconnection on temperature pattern, including recurring temperature enhancements. Similarly, Doppler velocity stratification maps revealed impacts on plasma flow pattern, such as a sudden change in the flow direction.
作者
我是这篇论文的作者
点击您的名字以认领此论文并将其添加到您的个人资料中。
推荐
暂无数据