The atmospheric composition of TOI-270 d

Abstract

The first explorations of temperate sub-Neptune exoplanets have been the hallmark of early JWST observations. The bulk properties of such planets are consistent with a range of possible internal structures, which can be distinguished through their interactions with the observable atmospheres. JWST observations of TOI-270 d, a temperate sub-Neptune, have previously led to contrasting conclusions: either a Hycean world, possessing a liquid water ocean, or a mixed-envelope sub-Neptune, where high temperatures prevent a liquid ocean and lead to a high mean molecular weight atmosphere. In order to resolve this uncertainty, we present a comprehensive retrieval analysis of TOI-270 d using recent NIRISS and NIRSpec transit spectroscopy across 1-5 μm. We find that prior inferences of a mixed envelope were affected by specific modelling choices leading to a high terminator temperature and high mean-molecular weight in the atmosphere. We confirm an H2-rich atmosphere in TOI-270 d and present revised constraints on the molecular log-mixing ratios and maximal detection significances of CH4 at -1.86+0.30-0.29 (6.4 σ), CO2 at -1.71+0.38-0.66 (3.9 σ), H2O at -1.88+0.78-4.13 (2.1 σ) and CS2 at -4.74+0.65-1.10 (2.0 σ), with a terminator temperature of 323+58-52 K at 10 mbar. We also find tentative evidence for more complex methyl-bearing species such as C2H6 and/or DMS at a 2.1-2.5 σ level. The present constraints are consistent with TOI-270 d being a Hycean or dark Hycean world, with planet-wide or nightside liquid water oceans. However, more observations are required to verify the present findings and robustly constrain the atmospheric conditions and internal structure of TOI-270 d.

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