Searching for Hot Water World Candidates with CHEOPS: Refining the radii   and analysing the internal structures and atmospheric lifetimes of TOI-238 b   and TOI-1685 b

J. A. Egger; D. Kubyshkina; Y. Alibert; H.P. Osborn; A. Bonfanti; T.G.; Wilson; A. Brandeker; M.N. G\"unther; M. Lendl; D. Kitzmann; L. Fossati; C.; Mordasini; S.G. Sousa; V. Adibekyan; M. Fridlund; C. Pezzotti; D. Gandolfi,; S. Ulmer-Moll; R. Alonso; T. B\'arczy; D. Barrado Navascues; S.C. Barros; W.; Baumjohann; W. Benz; N. Billot; L. Borsato; C. Broeg; A. Collier Cameron,; A.C.M. Correia; Sz. Csizmadia; P.E. Cubillos; M.B. Davies; M. Deleuil; A.; Deline; O.D.S. Demangeon; B.-O. Demory; A. Derekas; B. Edwards; D.; Ehrenreich; A. Erikson; A. Fortier; K. Gazeas; M. Gillon; M. G\"udel; A.; Heitzmann; Ch. Helling; K.G. Isaak; L. Kiss; J. Korth; K.W.F. Lam; J. Laskar,; A. Lecavelier des Etangs; A. Luntzer; R. Luque; D. Magrin; P.F.L. Maxted; B.; Mer\'in; M. Munari; V. Nascimbeni; G. Olofsson; R. Ottensamer; I. Pagano; E.; Pall\'e; G. Peter; D. Piazza; G. Piotto; D. Pollacco; D. Queloz; R.; Ragazzoni; N. Rando; H. Rauer; I. Ribas; N.C. Santos; G. Scandariato; D.; S\'egransan; A.E. Simon; A.M.S. Smith; R. Southworth; M. Stalport; S. Sulis,; M. Gy. Szab\'o; S. Udry; V. Van Grootel; J. Venturini; E. Villaver; N.A.; Walton; S. Wolf; and D. Wolter

arXiv:2502.07887·astro-ph.EP·April 2, 2025

Searching for Hot Water World Candidates with CHEOPS: Refining the radii and analysing the internal structures and atmospheric lifetimes of TOI-238 b and TOI-1685 b

J. A. Egger, D. Kubyshkina, Y. Alibert, H.P. Osborn, A. Bonfanti, T.G., Wilson, A. Brandeker, M.N. G\"unther, M. Lendl, D. Kitzmann, L. Fossati, C., Mordasini, S.G. Sousa, V. Adibekyan, M. Fridlund, C. Pezzotti, D. Gandolfi,, S. Ulmer-Moll, R. Alonso, T. B\'arczy

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TL;DR

This study uses CHEOPS, TESS, and RV data to identify and analyze potential hot water worlds, focusing on their internal structures and atmospheric lifetimes, to better understand exoplanet composition and evolution.

Contribution

It introduces a method to identify hot water world candidates in the mass-radius space and presents initial CHEOPS observations of two such targets, refining their characterization.

Findings

01

TOI-238 b likely has a water-dominated atmosphere that could survive over system lifetime.

02

TOI-1685 b may be a bare core, with a water atmosphere unlikely to persist.

03

Few well-characterized hot water world candidates are currently known.

Abstract

Studying the composition of exoplanets is one of the most promising approaches to observationally constrain planet formation and evolution processes. However, this endeavour is complicated for small exoplanets by the fact that a wide range of compositions is compatible with their bulk properties. To overcome this issue, we identify triangular regions in the mass-radius space where part of this degeneracy is lifted for close-in planets, since low-mass H/He envelopes would not be stable due to high-energy stellar irradiation. Planets in these Hot Water World triangles need to contain at least some heavier volatiles and are therefore interesting targets for atmospheric follow-up observations. We perform a demographic study to show that only few well-characterised planets in these regions are currently known and introduce our CHEOPS GTO programme aimed at identifying more of these potential…

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Code & Models

Repositories

newstrangeworlds/bear
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Taxonomy

TopicsAtmospheric Ozone and Climate · Spectroscopy and Laser Applications · Calibration and Measurement Techniques