Possible anti-correlations between pulsation amplitudes and the disk growth of Be stars in giant-outbursting Be X-ray binaries

Masafumi Niwano, Michael M. Fausnaugh, Ryan M. Lau, Kishalay De, Roberto Soria, George R. Ricker, Roland Vanderspek, Michael C. B. Ashley, Nicholas Earley, Matthew J. Hankins, Mansi M. Kasliwal, Anna M. Moore, Jamie Soon, Tony Travouillon, Mahito Sasada, Ichiro Takahashi, Yoichi Yatsu, Nobuyuki Kawai
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Abstract

The mechanism of X-ray outbursts in Be X-ray binaries remains a mystery, and understanding their circumstellar disks is crucial for a solution of the mass-transfer problem. In particular, it is important to identify the Be star activities (e.g., pulsations) that cause mass ejection and, hence, disk formation. Therefore, we investigated the relationship between optical flux oscillations and the infrared (IR) excess in a sample of five Be X-ray binaries. Applying the Lomb-Scargle technique to high-cadence optical light curves from the Transiting Exoplanet Survey Satellite (TESS), we detected several significant oscillation modes in the 3 to 24 hour period range for each source. We also measured the IR excess (a proxy for disk growth) of those five sources, using J-band light curves from Palomar Gattini-IR. In four of the five sources, we found anti-correlations between the IR excess and the amplitude of the main flux oscillation modes. This result is inconsistent with the conventional idea that non-radial pulsations drive mass ejections. We propose an alternative scenario where internal temperature variations in the Be star cause transitions between pulsation-active and mass-ejection-active states.
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大爆发 Be X 射线双星中 Be 星的脉动振幅与星盘生长之间可能存在的反相关性
Be X 射线双星的 X 射线爆发机制仍然是一个谜,了解它们的周星盘对于解决它们的质量转移问题至关重要。尤其重要的是,要找出导致质量喷射并进而导致盘变形的Be星活动(如脉冲)。因此,我们研究了五个 Be X 射线双星样本中光学通量振荡与红外(IR)过量之间的关系。我们对来自 Transiting Exoplanet Survey Satellite(TESS)的高信度光学光曲线应用了 Lomb-Scargle 技术,在每个光源的 3 到 24 小时周期范围内检测到了几种显著的振荡模式。我们还利用 Palomar Gattini-IR 的 J 波段光变曲线测量了这五个星源的红外过量(圆盘生长的代用指标)。在这五个来源中的四个来源中,我们发现红外过量与主通量振荡模式的振幅之间存在反相关关系。这一结果与非径向脉动驱动质量抛射的传统观点不一致。我们提出了另一种设想:Be 星的内部温度变化会导致脉动活跃态和质量喷射活跃态之间的转换。
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