TOI-757 b: an eccentric transiting mini-Neptune on a 17.5-d orbit

TL;DR

This paper confirms and characterizes TOI-757 b, a mini-Neptune with a 17.5-day orbit, high eccentricity, and uncertain composition, highlighting the importance of atmospheric studies and proposing formation scenarios.

Contribution

First detailed characterization of TOI-757 b, including mass, radius, eccentricity, and host star parameters, emphasizing the need for atmospheric data and exploring formation mechanisms.

Findings

TOI-757 b has a radius of 2.5 R_earth and a mass of 10.5 M_earth.

The planet exhibits a high eccentricity of 0.39.

Its density suggests a potentially diverse composition, but atmospheric data are needed.

Abstract

We report the spectroscopic confirmation and fundamental properties of TOI-757 b, a mini-Neptune on a 17.5-day orbit transiting a bright star ($V = 9.7$ mag) discovered by the TESS mission. We acquired high-precision radial velocity measurements with the HARPS, ESPRESSO, and PFS spectrographs to confirm the planet detection and determine its mass. We also acquired space-borne transit photometry with the CHEOPS space telescope to place stronger constraints on the planet radius, supported with ground-based LCOGT photometry. WASP and KELT photometry were used to help constrain the stellar rotation period. We also determined the fundamental parameters of the host star. We find that TOI-757 b has a radius of $R_{\mathrm{p}} = 2.5 \pm 0.1 R_{\oplus}$ and a mass of $M_{\mathrm{p}} = 10.5^{+2.2}_{-2.1} M_{\oplus}$, implying a bulk density of $\rho_{\text{p}} = 3.6 \pm 0.8$ g cm$^{-3}$. Our internal composition modeling was unable to constrain the composition of TOI-757 b, highlighting the importance of atmospheric observations for the system. We also find the planet to be highly eccentric with $e$ = 0.39$^{+0.08}_{-0.07}$, making it one of the very few highly eccentric planets among precisely characterized mini-Neptunes. Based on comparisons to other similar eccentric systems, we find a likely scenario for TOI-757 b's formation to be high eccentricity migration due to a distant outer companion. We additionally propose the possibility of a more intrinsic explanation for the high eccentricity due to star-star interactions during the earlier epoch of the Galactic disk formation, given the low metallicity and older age of TOI-757.