Evidence of Water Vapor in the Atmosphere of a Metal-Rich Hot Saturn with High-Resolution Transmission Spectroscopy

Abstract

Transmission spectroscopy presents one of the most successful approaches for investigating the atmospheres of exoplanets. We analyzed the near-infrared high-resolution transmission spectrum of a hot Saturn, HD 149026 b, taken using CARMENES spectrograph (R80,400). We found evidence of H2O at an S/N of 4.8. We also performed grid search using a Bayesian framework and constrained the orbital velocity Kp and rest velocity Vrest to 158.17+8.31-7.90 km\ s-1 and 2.57+0.54-0.57 km\ s-1, respectively. Whilst the retrieved Kp value is consistent with theoretical prediction, the retrieved Vrest value is highly red-shifted (>3-σ). This might be an indication of either anomalous atmospheric dynamics at play or an orbit with non-zero eccentricity. Additionally, we searched for HCN but no successful detection has been made possibly due to the relatively low S/N dataset. The detection of H2O and subsequent abundance retrieval, coupled with analysis of other species such as CO at the K-band, for example, might help us to get some information about the atmospheric C/O ratio and metallicity, which in turn could give us some insight into the planet formation scenario.

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