The GALAH Survey: Improving our understanding of confirmed and candidate planetary systems with large stellar surveys

TL;DR

This study leverages the GALAH stellar survey and Gaia data to refine properties of 279 exoplanet host stars, improving parameter estimates, identifying potential brown dwarf candidates, and exploring chemical signatures of host stars.

Contribution

It provides the most precise radii and masses for select exoplanets, refines stellar and planetary parameters, and explores the chemical and kinematic properties of host stars using large survey data.

Findings

Refined radii and masses for key exoplanets to high precision.

Identified 35 candidates likely to be brown dwarfs or stellar companions.

Discovered five host stars associated with the galaxy's thick disc.

Abstract

Pioneering photometric, astrometric, and spectroscopic surveys are helping exoplanetary scientists better constrain the fundamental properties of stars within our galaxy, and the planets these stars host. In this study, we use the third data release from the stellar spectroscopic GALAH Survey, coupled with astrometric data of eDR3 from the \textit{Gaia} satellite, and other data from NASA's Exoplanet Archive, to refine our understanding of 279 confirmed and candidate exoplanet host stars and their exoplanets. This homogenously analysed data set comprises 105 confirmed exoplanets, along with 146 K2 candidates, 95 TESS Objects of Interest (TOIs) and 52 Community TOIs (CTOIs). Our analysis significantly shifts several previously (unknown) planet parameters while decreasing the uncertainties for others; Our radius estimates suggest that 35 planet candidates are more likely brown dwarfs or stellar companions due to their new radius values. We are able to refine the radii and masses of WASP-47 e, K2-106 b, and CoRoT-7 b to their most precise values yet, to less than 2.3\% and 8.5\% respectively. We also use stellar rotational values from GALAH to show that most planet candidates will have mass measurements that will be tough to obtain with current ground-based spectrographs. With GALAH's chemical abundances, we show through chemo-kinematics that there are five planet-hosts that are associated with the galaxy's thick disc, including NGTS-4, K2-183 and K2-337. Finally, we show there is no statistical difference between the chemical properties of hot Neptune and hot rocky exoplanet hosts, with the possibility that short-period rocky worlds might be the remnant cores of hotter, gaseous worlds.