Indications for very high metallicity and absence of methane for the eccentric exo-Saturn WASP-117b

Abstract

We investigate the atmospheric composition of the long period (P orb= 10 days), eccentric exo-Saturn WASP-117b. WASP-117b could be in atmospheric temperature and chemistry similar to WASP-107b. In mass and radius WASP-117b is similar to WASP-39b, which allows a comparative study of these planets. We analyze a near-infrared transmission spectrum of WASP-117b taken with Hubble Space Telescope/WFC3 G141, which was reduced with two independent pipelines. High resolution measurements were taken with VLT/ESPRESSO in the optical. We report the robust (3σ) detection of a water spectral feature. Using a 1D atmosphere model with isothermal temperature, uniform cloud deck and equilibrium chemistry, the Bayesian evidence of a retrieval analysis of the transmission spectrum indicates a preference for a high atmospheric metallicity [Fe/H]=2.58+0.26-0.37 and clear skies. The data are also consistent with a lower-metallicity composition [Fe/H]<1.75 and a cloud deck between 10-2.2 - 10-5.1 bar, but with weaker Bayesian preference. We retrieve a low CH4 abundance of <10-4 volume fraction within 1 σ and <2· 10-1 volume fraction within 3 σ. We cannot constrain the equilibrium temperature between theoretically imposed limits of 700 and 1000~K. Further observations are needed to confirm quenching of CH4 with Kzz≥ 108~cm2/s. We report indications of Na and K in the VLT/ESPRESSO high resolution spectrum with substantial Bayesian evidence in combination with HST data.