The Surface and Interior Conditions of Temperate Sub-Neptune TOI-270 d
Abstract
Sub-Neptune planets, with no analogue in our solar system, provide a wealth of information about exoplanet diversity, formation & evolution, and habitability. Their robust characterisation requires the coupling of physically informed atmosphere and interior models with precise atmospheric data to break compositional degeneracies. Recent JWST observations of the temperate sub-Neptune TOI-270 d revealed detections of CH4 and CO2 in its H2-rich atmosphere, with tentative inferences of H2O and CS2 and a non-detection of NH3. We conduct a theoretical exploration of the range of possible interiors for TOI-270 d based on the current observational constraints. We carry out internal structure modelling using a coupled atmosphere-interior model, including self-consistent atmospheric temperature structures informed by JWST observations. The bulk properties permit solutions spanning mini-Neptune, gas dwarf and hycean scenarios, with a wide range of possible surface conditions, which are strongly dependent on the atmospheric properties, including the presence of clouds/hazes. We explore the solutions allowing for surface water oceans on TOI-270 d, including under potentially habitable conditions. The atmospheric mass fractions permitting habitable surface conditions are found to be 3.5×10-5 and pressures 100 bar for the envelope temperature structures considered. We consider mini-Neptune interiors that are sufficiently warm for H2O to be mixed with the H2-rich envelope. Finally, we consider possible gas dwarf interiors, finding H2-rich envelope mass fractions of 1-5 % are required to satisfy the bulk properties, with surface pressures 104-105 bar. Further theoretical and experimental studies in addition to future atmospheric observations will aid the characterisation of the possible interior and surface conditions on TOI-270 d.
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