Analysis of the Stellar Occultations during the Unprecedented Long-duration Flare

K. Bicz, R. Falewicz, P. Heinzel, M. Pietras and P. Preś
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Abstract

In strong stellar and solar flares, flare loops typically appear during the decay phase, providing an additional contribution to the flare emission and, possibly, obscuring the flare emission. Superflares, common in active, cool stars, persist mostly from minutes to several hours and alter the star's luminosity across the electromagnetic spectrum. Recent observations of a young main-sequence star reveal a distinctive cool loop arcade forming above the flaring region during a 27 hr superflare event, obscuring the region multiple times. Analysis of these occultations enables the estimation of the arcade's geometry and physical properties. The arcade's size expanded from 0.213 to 0.391 R* at a speed of approximately 3.5 km s−1. The covering structure exhibited a thickness below 12,200 km, with electron densities ranging from 1013 to 1014 cm−3 and temperatures below 7600 K, 6400 K, and 5077 K for successive occultations. Additionally, the flare's maximum emission temperature has to exceed 12,000 K for the occultations to appear. Comparing these parameters with known values from other stars and the Sun suggests the structure's nature as an arcade of cool flare loops. For the first time, we present the physical parameters and the reconstructed geometry of the cool flare loops that obscure the flaring region during the gradual phase of a long-duration flare on a star other than the Sun.
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史无前例的长持续耀斑期间的恒星掩星分析
在强恒星耀斑和太阳耀斑中,耀斑环通常出现在衰减阶段,为耀斑发射提供额外的贡献,并有可能掩盖耀斑发射。超级耀斑常见于活跃的冷恒星,持续时间大多从几分钟到几小时不等,并改变恒星在整个电磁频谱中的光度。最近对一颗年轻主序星的观测显示,在一次长达 27 小时的超级耀斑事件中,耀斑区域上方形成了一个独特的冷环状弧线,多次遮挡了耀斑区域。通过对这些掩星的分析,可以估算出弧光的几何形状和物理特性。弧的大小以大约 3.5 公里/秒的速度从 0.213 R* 扩大到 0.391 R*。覆盖结构的厚度低于 12200 公里,电子密度为 1013 至 1014 厘米-3,连续掩星的温度分别低于 7600 K、6400 K 和 5077 K。此外,耀斑的最高发射温度必须超过 12,000 K 才能出现掩星。将这些参数与其他恒星和太阳的已知值进行比较,表明该结构的性质是一个由冷却耀斑环组成的弧形结构。我们首次提出了冷耀斑环的物理参数和重建的几何形状,这些耀斑环在太阳以外的恒星上发生长持续时间耀斑的渐变阶段遮蔽了耀斑区域。
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