K2-237b的凌日时间变化:行星盘迁移的提示

Fan Yang, Richard J. Long, Eamonn Kerins, Supachai Awiphan, Su-Su Shan, Bo Zhang, Yogesh C. Joshi, Napaporn A-thano, Ing-Guey Jiang, Akshay Priyadarshi, Ji-Feng Liu
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引用次数: 0

摘要

热木星最初应该是在距离宿主恒星相当远的地方形成的,随后向内部区域迁移,这直接得到了瞬时变化(TTV)的支持。我们报告了K2-237b的TTV,使用的是(textit{Kepler})和(textit{TESS})数据拟合的重现时间。K2和\textit{TESS}数据拟合的时间。时间跨度从2016年到2021年,因此观测基线为5年。时间演变对恒定周期方案产生了重大偏差。利用贝叶斯信息标准(BIC)对模式可信度进行了评估,结果表明,贝叶斯信息标准(BIC)有利于周期衰减情景,其 "Δ "值为 14.1。检测到的 TTV 引起的周期衰减率($\dot{P}$)为-1.14$\pm$0.28$times$10$^{-8}$天/天($-$0.36 s/年)。通过对光谱能量分布的拟合,我们发现WISE W1和W2波段的红外超标显著性水平为1.5$\sigma$,W3和W4波段的红外超标显著性水平为2$\sigma$。这可能揭示了恒星盘的存在,恒星盘由800$\pm$300 K的热尘埃组成,其$L_{dust}/L_{\ast}$为5$\pm$3$\times$10$^{-3}$。通过等时线拟合,我们得到了1.0$^{+1.4}_{-0.7}$$times$10$^{9}$年的恒星年龄。K2-237b的性质有可能成为行星盘迁移的直接观测支持,尽管还需要更多的观测。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Transit Timing Variation of K2-237b: Hints Toward Planet Disk Migration
Hot Jupiters should initially form at considerable distances from host stars and subsequently migrate towards inner regions, supported directly by transit timing variation (TTV). We report the TTV of K2-237b, using reproduced timings fitted from \textit{Kepler} K2 and \textit{TESS} data. The timings span from 2016 to 2021, leading to an observational baseline of 5 years. The timing evolution presents a significant bias to a constant period scenario. The model evidence is evaluated utilizing the Bayesian Information Criterion (BIC), which favours the scenario of period decay with a $\Delta$BIC of 14.1. The detected TTV induces a period decay rate ($\dot{P}$) of -1.14$\pm$0.28$\times$10$^{-8}$ days per day ($-$0.36 s/year). Fitting the spectral energy distribution, we find infrared excess at the significance level of 1.5 $\sigma$ for WISE W1 and W2 bands, and 2 $\sigma$ level for W3 and W4 bands. This potentially reveals the existence of a stellar disk, consisting of hot dust at 800$\pm$300 K, showing a $L_{dust}/L_{\ast}$ of 5$\pm$3$\times$10$^{-3}$. We obtain a stellar age of 1.0$^{+1.4}_{-0.7}$$\times$10$^{9}$ yr from isochrone fitting. The properties of K2-237b potentially serve as a direct observational support to the planet disk migration though more observation are needed.
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