A 1.9 Earth radius rocky planet and the discovery of a non-transiting planet in the Kepler-20 system

TL;DR

This study precisely measures the mass and composition of Kepler-20b, confirming it as a rocky planet, and discovers a new non-transiting planet in the Kepler-20 system using radial velocity and photometric data.

Contribution

It provides the first accurate mass and density measurements of Kepler-20b and reports the discovery of a non-transiting planet in the system, enhancing understanding of planetary compositions.

Findings

Kepler-20b is a rocky planet with a density similar to Earth's.

A new non-transiting planet with ~20 Earth masses was discovered.

Kepler-20b is the most massive rocky planet known to date.

Abstract

Kepler-20 is a solar-type star (V = 12.5) hosting a compact system of five transiting planets, all packed within the orbital distance of Mercury in our own Solar System. A transition from rocky to gaseous planets with a planetary transition radius of ~1.6 REarth has recently been proposed by several publications in the literature (Rogers 2015;Weiss & Marcy 2014). Kepler-20b (Rp ~ 1.9 REarth) has a size beyond this transition radius, however previous mass measurements were not sufficiently precise to allow definite conclusions to be drawn regarding its composition. We present new mass measurements of three of the planets in the Kepler-20 system facilitated by 104 radial velocity measurements from the HARPS-N spectrograph and 30 archival Keck/HIRES observations, as well as an updated photometric analysis of the Kepler data and an asteroseismic analysis of the host star (MStar = 0.948+-0.051 Msun and Rstar = 0.964+-0.018 Rsun). Kepler-20b is a 1.868+0.066-0.034 REarth planet in a 3.7 day period with a mass of 9.70+1.41-1.44 MEarth resulting in a mean density of 8.2+1.5-1.3 g/cc indicating a rocky composition with an iron to silicate ratio consistent with that of the Earth. This makes Kepler-20b the most massive planet with a rocky composition found to date. Furthermore, we report the discovery of an additional non-transiting planet with a minimum mass of 19.96+3.08-3.61 MEarth and an orbital period of ~34 days in the gap between Kepler-20f (P ~ 11 days) and Kepler-20d (P ~ 78 days).