Nightside Clouds on Tidally-locked Terrestrial Planets Mimic Atmosphere-Free Scenarios

Diana Powell, Robin Wordsworth, Karin Öberg
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Abstract

We investigate the impact of nightside cloud formation on the observable night-day contrast of tidally-locked terrestrial planet atmospheres. We demonstrate that, in the case where the planetary dayside is only 10s of Kelvin hotter than the planetary nightside, the presence of optically thick nightside clouds can lead to observations that mimic a planet without an atmosphere, despite the planet actually hosting a significant (10 bar) atmosphere. The scenario presented in this work requires a level of intrinsic atmospheric day/night temperature contrast such that the nightside can form clouds while the dayside is too hot for cloud formation to occur. This scenario is most likely for hotter terrestrials and terrestrials with low volatile inventories. We thus note that a substantial dayside/nightside temperature difference alone does not robustly indicate that a planet does not host an atmosphere and additional observations and modeling are essential for characterization. We further discuss several avenues for future study to improve our understanding of the terrestrial planets and how best to characterize them with JWST.
潮汐锁定陆地行星上的夜侧云模拟无大气层情景
我们研究了夜侧云的形成对潮汐锁定的陆地行星大气的观测日对比的影响。我们证明,在行星日侧温度仅比行星夜侧温度高几十开尔文的情况下,光学厚夜侧云的存在会导致观测结果类似于一颗没有大气层的行星,尽管该行星实际上拥有大量(10 巴)大气层。这项工作中提出的情景要求大气昼夜温差达到一定水平,这样夜侧才能形成云,而日侧温度过高,无法形成云。因此我们注意到,仅凭昼夜温差大并不能有力地说明行星上没有大气,还需要进行更多的观测和建模来确定其特征。我们进一步讨论了未来研究的几个途径,以增进我们对陆地行星的了解,以及如何利用 JWST 对它们进行最佳表征。
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