Confirming the Tidal Tails of the Young Open Cluster Blanco 1 with TESS Rotation Periods

Lizhou Sha, Andrew M. Vanderburg, Luke G. Bouma, Chelsea X. Huang
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Abstract

Blanco 1 is an $\approx 130\,\mathrm{Myr}$ open cluster located 240 pc from the Sun below the Galactic plane. Recent studies have reported the existence of diffuse tidal tails extending 50-60 pc from the cluster center based on the positions and velocities measured by Gaia. To independently assess the reality and extent of this structure, we used light curves generated from TESS full-frame images to search for photometric rotation periods of stars in and around Blanco 1. We detected rotation periods down to a stellar effective temperature of $\approx 3100\,\mathrm{K}$ in 347 of the 603 cluster member candidates for which we have light curves. For cluster members in the core and candidate members in the tidal tails, both within a temperature range of 4400 to 6200 K, 74% and 72% of the rotation periods are consistent with the single-star gyrochronological sequence, respectively. In contrast, a comparison sample of field stars yielded gyrochrone-consistent rotation periods for only 8.5% of stars. The tidal tail candidates' overall conformance to the core members' gyrochrone sequence implies that their contamination ratio is consistent with zero and < 0.33 at the $2\sigma$ level. This result confirms the existence of Blanco 1 tidal tails and doubles the number of Blanco 1 members for which there are both spatio-kinematic and rotation-based cluster membership verification. Extending the strategy of using TESS light curves for gyrochronology to other nearby young open clusters and stellar associations may provide a viable strategy for mapping out their dissolution and broadening the search for young exoplanets.
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用 TESS 旋转周期确认年轻疏散星团 Blanco 1 的潮汐尾迹
布兰科1号(Blanco 1)是一个开放星团,位于银河系平面下方,距离太阳240 pc。最近的研究报告说,根据盖亚测量到的位置和速度,存在着从星团中心延伸50-60 pc的扩散潮汐尾巴。为了独立地评估这一结构的实际情况和范围,我们使用了由TESS全帧图像生成的光变曲线来搜索布兰科1号内和周围恒星的光度自转周期。在我们拥有光曲线的603个候选星团成员中的347个,我们检测到了低至恒星有效温度$\approx 3100\,\mathrm{K}$ 的自转周期。对于处于核心的星团成员和处于潮汐尾部的候选成员,它们的温度范围都在4400到6200 K之间,分别有74%和72%的旋转周期与单星陀螺序列一致。相比之下,只有8.5%的野外恒星的旋转周期与陀螺序列一致。潮汐尾部候选星总体上与核心成员的陀螺序列一致,这意味着它们的污染比与零一致,并且在2美元的水平上小于0.33。这一结果证实了布兰科1号潮汐尾部的存在,并使同时存在空间运动学和基于自转的聚类成员验证的布兰科1号成员数目增加了一倍。将利用 TESS 光曲线进行能量年代学研究的策略扩展到其他邻近的年轻疏散星团和恒星联合体,可能会为绘制它们的溶解图和扩大年轻系外行星的搜索范围提供一种可行的策略。
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