海洋世界的化学条件†

IF 3.3 3区 化学 Q2 CHEMISTRY, PHYSICAL
Nikku Madhusudhan, Julianne I. Moses, Frances Rigby and Edouard Barrier
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引用次数: 0

摘要

传统上,在系外行星上寻找生命主要集中在岩石系外行星上。最近提出的hyocean世界有可能显著扩大和加速对其他地方生命的寻找。海洋世界是一类可居住的亚海王星,拥有行星范围内的海洋和富含h2的大气。它们广泛的可能大小和温度范围导致了广泛的宜居带和高潜力的发现和大气表征使用过境光谱。已知有十多个候选的Hycean行星正在凌日附近的M矮星,这使它们成为詹姆斯·韦伯太空望远镜(JWST)进行大气表征的有希望的目标。在这项工作中,我们研究了一个典型的hyocean世界上可能的化学条件,重点关注(a)大气的现在和原始分子组成,以及(b)海洋中生命起源和维持的生物必需元素的清单。基于一系列条件下的光化学和动力学模型,我们讨论了其大气可能的化学演化和可观测到的现今组成。特别是,在原始条件降低的情况下,早期大气演化经历了一个富含有机分子的阶段,这些有机分子可以为益生元化学提供重要的原料。我们研究了将生物必需金属输送到海洋的途径,考虑到岩石表面缺乏风化的挑战,以及海洋被厚厚的冰幔与岩石核心隔开。根据内部结构模型的海洋深度和对早期地球海洋的元素估计,我们估计了这样一个星球对生物必需金属的需求。我们发现,对撞击历史和大气沉降的合理假设可以满足要求,并辅以其他稳态来源。我们讨论了用JWST观测Hycean世界大气特征的前景,以及这种新范式在寻找系外行星生命方面的未来方向。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Chemical conditions on Hycean worlds†

Chemical conditions on Hycean worlds†

Traditionally, the search for life on exoplanets has been predominantly focused on rocky exoplanets. The recently proposed Hycean worlds have the potential to significantly expand and accelerate the search for life elsewhere. Hycean worlds are a class of habitable sub-Neptunes with planet-wide oceans and H2-rich atmospheres. Their broad range of possible sizes and temperatures lead to a wide habitable zone and high potential for discovery and atmospheric characterization using transit spectroscopy. Over a dozen candidate Hycean planets are already known to be transiting nearby M dwarfs, making them promising targets for atmospheric characterization with the James Webb Space Telescope (JWST). In this work, we investigate possible chemical conditions on a canonical Hycean world, focusing on (a) the present and primordial molecular composition of the atmosphere, and (b) the inventory of bioessential elements for the origin and sustenance of life in the ocean. Based on photochemical and kinetic modeling for a range of conditions, we discuss the possible chemical evolution and observable present-day composition of its atmosphere. In particular, for reduced primordial conditions the early atmospheric evolution passes through a phase that is rich in organic molecules that could provide important feedstock for prebiotic chemistry. We investigate avenues for delivering bioessential metals to the ocean, considering the challenging lack of weathering from a rocky surface and the ocean separated from the rocky core by a thick icy mantle. Based on ocean depths from internal structure modelling and elemental estimates for the early Earth's oceans, we estimate the requirements for bioessential metals in such a planet. We find that the requirements can be met for plausible assumptions about impact history and atmospheric sedimentation, and supplemented by other steady state sources. We discuss the observational prospects for atmospheric characterisation of Hycean worlds with JWST and future directions of this new paradigm in the search for life on exoplanets.

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来源期刊
Faraday Discussions
Faraday Discussions 化学-物理化学
自引率
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发文量
259
期刊介绍: Discussion summary and research papers from discussion meetings that focus on rapidly developing areas of physical chemistry and its interfaces
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