Planet Hunters VII. Discovery of a New Low-Mass, Low-Density Planet (PH3 c) Orbiting Kepler-289 with Mass Measurements of Two Additional Planets (PH3 b and d)

Abstract

We report the discovery of one newly confirmed planet (P=66.06 days, RP=2.680.17R) and mass determinations of two previously validated Kepler planets, Kepler-289 b (P=34.55 days, RP=2.150.10R) and Kepler-289-c (P=125.85 days, RP=11.590.10R), through their transit timing variations (TTVs). We also exclude the possibility that these three planets reside in a 1:2:4 Laplace resonance. The outer planet has very deep (1.3%), high signal-to-noise transits, which puts extremely tight constraints on its host star's stellar properties via Kepler's Third Law. The star PH3 is a young (1 Gyr as determined by isochrones and gyrochronology), Sun-like star with M*=1.080.02M, R*=1.000.02R, and Teff=599038 K. The middle planet's large TTV amplitude (5 hours) resulted either in non-detections or inaccurate detections in previous searches. A strong chopping signal, a shorter period sinusoid in the TTVs, allows us to break the mass-eccentricity degeneracy and uniquely determine the masses of the inner, middle, and outer planets to be M=7.36.8M, 4.00.9M, and M=13217M, which we designate PH3 b, c, and d, respectively. Furthermore, the middle planet, PH3 c, has a relatively low density, =1.20.3 g/cm3 for a planet of its mass, requiring a substantial H/He atmosphere of 2.1+0.8-0.3% by mass, and joins a growing population of low-mass, low-density planets.