地外行星Gl 486b上没有厚厚的大气层

Megan Weiner Mansfield, Qiao Xue, Michael Zhang, Alexandra S. Mahajan, Jegug Ih, Daniel Koll, Jacob L. Bean, Brandon Park Coy, Jason D. Eastman, Eliza M.-R. Kempton and Edwin S. Kite
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摘要

JWST 的一个主要科学目标是探测绕 M 矮星(M-地球)运行的陆地行星的大气层并确定其特征。M-地球上是否存在大气层还很不确定,因为它们的宿主恒星长期受到高强度的X射线和紫外线辐照,可能会使它们的大气层完全消失。我们展示了 JWST 在 5 和 12 μm 波段对 M-Earth Gl 486b(又称 GJ 486b)的两次日食观测。我们将这些观测结果与对主星参数的精确分析相结合,得出行星日侧温度为 Tp = 865 ± 14 K。 我们将这一温度与零反照率、零热量再分布裸岩的最大预期温度进行了比较,得出温度比为 。 这一数值与具有轻微非零反照率的无空气天体或具有小于 1% H2O 或小于 1 ppm CO2 的稀薄大气相一致。然而,它与地球或类似金星的大气层不一致,光谱也没有显示出明显的发射或吸收特征。此外,我们的观测结果与之前的凌日观测所允许的富含水的大气层情况不一致,这表明透射光谱是由恒星污染形成的。考虑到在该系统≥6.6 Gyr的生命周期中大气可能会逃逸,我们得出结论,观测结果最好用一颗不透气的行星来解释。这一结果是迄今为止利用 JWST 对地外行星热辐射进行的最精确测量,为确定无空气天体和有大气天体之间的 "宇宙海岸线 "位置提供了强有力的约束。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
No Thick Atmosphere on the Terrestrial Exoplanet Gl 486b
A primary science goal for JWST is to detect and characterize the atmospheres of terrestrial planets orbiting M dwarfs (M-Earths). The existence of atmospheres on M-Earths is highly uncertain because their host stars’ extended history of high X-ray and ultraviolet irradiation may act to completely remove their atmospheres. We present two JWST secondary eclipse observations of the M-Earth Gl 486b (also known as GJ 486b) between 5 and 12 μm. We combined these observations with a precise analysis of the host star parameters to derive a planetary dayside temperature of Tp = 865 ± 14 K. We compared this temperature to the maximum expected temperature for a zero albedo, zero heat redistribution bare rock and derived a temperature ratio of . This value is consistent with an airless body with a slight nonzero albedo or a thin atmosphere with <1% H2O or <1 ppm CO2. However, it is inconsistent with an Earth- or Venus-like atmosphere, and the spectrum shows no clear emission or absorption features. Additionally, our observations are inconsistent with the water-rich atmospheric scenario allowed by previous transit observations and suggest the transmission spectrum was instead shaped by stellar contamination. Given the potential for atmospheric escape throughout the system’s ≥6.6 Gyr lifetime, we conclude that the observations are likely best explained by an airless planet. This result is the most precise measurement yet of terrestrial exoplanet thermal emission with JWST, which places a strong constraint on the position of the “cosmic shoreline” between airless bodies and those with atmospheres.
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