Refining the Masses and Radii of the Star Kepler-33 and its Five Transiting Planets
Abstract
Kepler-33 hosts five validated transiting planets ranging in period from 5 to 41 days. The planets are in nearly co-planar orbits and exhibit remarkably similar (appropriately scaled) transit durations indicative of similar impact parameters. The outer three planets have radii of 3.5 R p/R4.7 and are closely-packed dynamically, and thus transit timing variations can be observed. Photodynamical analysis of transit timing variations provide 2σ upper bounds on the eccentricity of the orbiting planets (ranging from <0.02 to <0.2) and the mean density of the host-star (0.39-0.02+0.01\, g/cm3). We combine Gaia Early Data Release 3 parallax observations, the previously reported host-star effective temperature and metallicity, and our photodynamical model to refine properties of the host-star and the transiting planets. Our analysis yields well-constrained masses for Kepler-33~e (6.6-1.0+1.1\,M) and f (8.2-1.2+1.6\,M) along with 2σ upper limits for planets c (<19\,M) and d (<8.2\,M). We confirm the reported low bulk densities of planet d (<0.4\, g/cm3), e (0.80.1\, g/cm3), and f (0.70.1\, g/cm3). Based on comparisons with planetary evolution models, we find that Kepler-33~e and f exhibit relatively high envelope mass fractions of f env=7.0-0.5+0.6\% and f env=10.30.6\%, respectively. Assuming a mass for planet d 4\,M suggests that it has f env12\%.
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