Detecting prolonged activity minima in binary stars

arXiv: Solar and Stellar Astrophysics Pub Date : 2020-12-16 DOI:10.1051/0004-6361/202039902

M. Flores, M. J. Arancibia, R. Bustos, A. Buccino, J. Y. Galarza, N. Nuñez, P. Miquelarena, J. Alacoria, C. Saffe, P. Mauas

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引用次数: 1

Abstract

Context. It is well known that from 1645 to 1715 solar activity was notably low and the number of sunspots was extremely reduced. This epoch is known as the Maunder Minimum (MM). The study of stars in prolonged activity minima like the MM could help to shed light on this enigmatic epoch. Aims. To explore if the star $\zeta^{2}$ Ret, which belongs to a binary system, is in a state similar to the MM. We have collected more than 430 spectra acquired between 2000 and 2019 with the HARPS, REOSC, UVES, and FEROS spectrographs. Methods. We performed a detailed long-term activity study of both components using the Mount Wilson index, which is obtained from the Ca II H\&K lines. To search for signs of an activity cycle, we analyzed the resulting time-series with the Generalized Lomb-Scargle and CLEAN periodograms. Results. Our spectroscopic analysis shows a high activity level for zet01 Ret and a significant decrease in the magnetic activity cycle amplitude of $\zeta^{2}$ Ret. Thus, the activity difference between both components has been slightly increased ($\Delta$log (RHK) $\sim$0.24 dex), when compared to the previously reported value. The long series analyzed here allowed us to recalculate and constrain the period of $\zeta^{2}$ Ret to $\sim$7.9 yr. We also detected a long-term activity cycle of $\sim$4.2 yr in $\zeta^{1}$ Ret. Conclusions. By analogy with the scenario that proposes a weak solar cycle during the MM, we suggest that activity signatures showed by $\zeta^{2}$ Ret, i.e., a very low activity level when compared to its stellar companion, a notably decreasing amplitude ($\sim$47%), and a cyclic behaviour, are possible evidence that this star could be in a MM state. It is, to our knowledge, the first MM candidate star detected through a highly discrepant activity behaviour in a binary system.

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探测双星中持续活动极小值

背景。众所周知，从1645年到1715年，太阳活动非常低，太阳黑子的数量急剧减少。这个时期被称为蒙德极小期(MM)。对像MM这样处于长期活动极小期的恒星的研究有助于揭示这个神秘的时代。目标为了探索属于双星系统的恒星$\zeta^{2}$ Ret是否处于类似于MM的状态，我们收集了2000年至2019年间使用HARPS, REOSC, UVES和FEROS光谱仪获得的430多个光谱。方法。我们使用从Ca II H＆K系获得的Mount Wilson指数对这两个组分进行了详细的长期活性研究。为了寻找活动周期的迹象，我们用广义Lomb-Scargle和CLEAN周期图分析了产生的时间序列。结果。我们的光谱分析显示，zet01 Ret的活性水平较高，而$\zeta^{2}$ Ret的磁活动周期幅度显著降低。因此，与先前报道的值相比，两个组分之间的活性差异略有增加($\Delta$ log (RHK) $\sim$ 0.24指数)。这里分析的长序列使我们能够重新计算并将$\zeta^{2}$ Ret的周期限制为$\sim$ 7.9年。我们还发现$\zeta^{1}$ Ret的长期活动周期为$\sim$ 4.2年。通过与MM期间太阳周期较弱的情景类比，我们认为$\zeta^{2}$ Ret所显示的活动特征，即与它的伴星相比，其活动水平非常低，幅度明显下降($\sim$ 47%), and a cyclic behaviour, are possible evidence that this star could be in a MM state. It is, to our knowledge, the first MM candidate star detected through a highly discrepant activity behaviour in a binary system.

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arXiv: Solar and Stellar Astrophysics

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