Searching for the stellar cycles of low-mass stars using TESS data

Astronomy & Astrophysics Pub Date : 2024-07-24 DOI:10.1051/0004-6361/202450523

Gavin Ramsay, Pasi Hakala, J. Gerry Doyle

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Abstract

We carried out a search for stellar activity cycles in late low-mass M dwarfs (M0--M6) located in the TESS northern and southern continuous viewing zones using data from sectors 1--61 (Cycle 1 to partway through Cycle 5). We utilised TESS-SPOC data, which initially had a cadence of 30 min and was then reduced to 10 min in Cycle 3. In addition, we required for each star to be observed in at least six sectors in each north and south Cycle: 1,950 low-mass stars ultimately met these criteria. Strong evidence was seen in 245 stars for a very stable photometric variation that we assumed to be a signature of the stars' rotation period. We conducted a similar study for solar-like stars and found that 194 out of 1432 stars had a very stable modulation. We then searched for evidence of a variation in the rotational amplitude. We found 26 low-mass stars that showed evidence of variability in their photometric amplitude and only one solar-like star. Some display a monotonic trend over 3--4 years, whilst others reveal shorter term variations. We determined the predicted cycle durations of these stars using a relationship found in the literature and an estimate of the stars' Rossby number. Finally, we found a marginally statistically significant correlation between the range in the rotational amplitude modulation and the rotation period.

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利用 TESS 数据搜索低质量恒星的恒星周期

我们利用TESS南北连续观测区1-61扇区（周期1到周期5的一部分）的数据，对位于TESS南北连续观测区的晚期低质量M矮星（M0--M6）的恒星活动周期进行了搜索。我们利用的是 TESS-SPOC 数据，该数据最初的周期为 30 分钟，到第 3 周期时缩短为 10 分钟。此外，我们要求每颗恒星在南北两个周期中至少有六个扇区被观测到：最终有 1,950 颗低质量恒星符合这些标准。在 245 颗恒星中，我们发现了非常稳定的光度变化的有力证据，我们假定这是恒星自转周期的特征。我们对类太阳恒星进行了类似的研究，发现1432颗恒星中有194颗具有非常稳定的调制。然后，我们寻找自转振幅变化的证据。我们发现有 26 颗低质量恒星的测光振幅有变化，只有一颗类太阳恒星。一些恒星显示出 3-4 年的单调趋势，而其他恒星则显示出较短期的变化。我们利用文献中的关系和对恒星罗斯比数的估计，确定了这些恒星的预测周期时间。最后，我们发现旋转振幅调制范围与旋转周期之间存在统计学意义上的微弱相关性。

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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Astronomy & Astrophysics

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