GJ 523b is a Massive, 170 Myr-old Mega-Earth, Likely on a Polar Orbit

Abstract

We use WIYN/NEID radial velocity measurements to confirm the planetary nature and measure the mass of the TESS transiting exoplanet candidate around the mid-K dwarf GJ 523 (V=9.23, K=6.525). We find that GJ 523b is on a 17.75 day orbit and has a radius of 2.550.15\,R, a mass of 23.53.3\,M, and a zero-albedo equilibrium temperature of 538 K. GJ 523b's high bulk density of 7.81.8 g cm-3 and position on a mass-radius diagram implies a surprising low atmospheric mass fraction despite its relatively large mass. Additionally, we determine that the system has an age of 169+100-48 Myr through a gyrochronological analysis of GJ 523 and its comoving companions. We also use the SED-derived stellar radius, the photometric rotation period, and the spectroscopic v i to derive a stellar inclination of 17.65.0 degrees, implying that GJ 523b has a minimum orbital obliquity of 71.4-5.0+4.7 degrees. GJ 523b's high mass, apparent lack of a gas envelope, young age, and high orbital obliquity present a challenge to typical planet formation pathways, and at the moment there is not enough data on the system to definitively determine how GJ 523b formed. Finally, we present a new observational classification for ultra-dense, sub-Neptune-sized exoplanets similar to GJ 523b: the mega-Earths, planets with Rp ≥2.1\,R and p ≥ 5.5 g cm-3.

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