WASP-86b and WASP-102b: super-dense versus bloated planets

Abstract

We report the discovery of two transiting planetary systems: a super dense, sub-Jupiter mass planet WASP-86b (\ = 0.82 0.06 , \ = 0.63 0.01 ), and a bloated, Saturn-like planet WASP-102b (\ = 0.62 0.04 , \=1.27 0.03 ). They orbit their host star every 5.03, and 2.71 days, respectively. The planet hosting WASP-86 is a F7 star (\ = 6330110 K, \ = +0.23 0.14 dex, and age 0.8--1~Gyr), WASP-102 is a G0 star (\ = 5940140 K, \ = -0.09 0.19 dex, and age 1~Gyr). These two systems highlight the diversity of planetary radii over similar masses for giant planets with masses between Saturn and Jupiter. WASP-102b shows a larger than model-predicted radius, indicating that the planet is receiving a strong incident flux which contributes to the inflation of its radius. On the other hand, with a density of pl = 3.24~0.3~jup, WASP-86b is the densest gas giant planet among planets with masses in the range 0.05 <Mpl< 2.0 . With a stellar mass of 1.34 M and = +0.23 dex, WASP-86 could host additional massive and dense planets given that its protoplanetary disc is expected to also have been enriched with heavy elements. In order to match WASP-86b's density, an extrapolation of theoretical models predicts a planet composition of more than 80\% in heavy elements (whether confined in a core or mixed in the envelope). This fraction corresponds to a core mass of approximately 210\ for WASP-86b's mass of 260\,. Only planets with masses larger than about 2\ have larger densities than that of WASP-86b, making it exceptional in its mass range.