Detection of two totally eclipsing B-type binaries with extremely low mass ratios

Linfeng Chang, Shengbang Qian, Lei Zang, Fuxing Li
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Abstract

The detection of O- and B-type stars with extremely low-mass companions is very important for understanding the formation and evolution of binary stars. However, their finding remains a challenge because the low-mass components in such systems contribute such small flux to the total. During the searching for pulsations among O- and B-type stars by using the TESS data, we found two short-period and B-type (B9) eclipsing binaries with orbital periods of 1.61613 and 2.37857 days. Photometric solutions of the two close binaries were derived by analyzing the TESS light curves with the W-D method. It is discovered that both of them are detached binaries with extremely low mass ratios of 0.067(2) for TIC 260342097 and 0.140(3) for TIC 209148631, respectively. The determined mass ratio indicates that TIC 260342097 is one of the lowest mass ratios among known B-type binary systems. We showed that the two systems have total eclipses with a broad and flat secondary minimum, suggesting that the photometric parameters could be derived reliably. The absolute parameters of the two binaries are estimated and it is found that the secondary components in the two systems are over-luminous and over-size when compared with the normal low-mass and cool main-sequence (MS) stars. These findings may imply that the two systems are composed of a B-type MS primary and a cool pre-MS secondary with orbital periods shorter than 2.5 days. They are valuable targets to test theories of binary star formation and evolution.
探测到两个质量比极低的全蚀B型双星
探测具有极低质量伴星的O型和B型恒星对于了解双星的形成和演化非常重要。然而,由于这些系统中的低质量成分对总通量的贡献非常小,因此寻找它们仍然是一项挑战。在利用TESS数据搜索O型和B型恒星的脉冲过程中,我们发现了两颗短周期和B型(B9)食双星,它们的轨道周期分别为1.61613天和2.37857天。通过用W-D方法分析TESS光曲线,得出了这两个近双星的光度解。结果发现,它们都是质量比极低的分离双星,TIC 260342097 的质量比为 0.067(2),TIC 209148631 的质量比为 0.140(3)。测定的质量比表明,TIC 260342097 是已知 B 型双星系统中质量比最低的系统之一。我们的研究表明,这两个系统的全食有一个宽而平坦的次级最小值,这表明光度参数的推导是可靠的。我们估算了这两个双星的绝对参数,发现与正常的低质量和冷主序(MS)恒星相比,这两个双星系统的次级成分亮度过高,体积过大。这些发现可能意味着双星系统由一个B型MS主星和一个轨道周期短于2.5天的冷前MS次星组成。它们是检验双星形成和演化理论的重要目标。
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