Updated Mass, Eccentricity, and Tidal Heating Constraints for the Earth-sized Planet LP 791-18 d

Abstract

LP 791-18 d is a temperate Earth-sized planet orbiting a late M dwarf, surrounded by an interior super-Earth (LP 791-18 b, RP = 1.2 R, P=0.95 days) and an exterior sub-Neptune (LP 791-18 c, RP = 2.5 R, P=4.99 days). Dynamical interactions between LP 791-18 d and c produce transit timing variations (TTVs) that can be used to constrain the planet masses and eccentricities. These interactions can also force a non-zero eccentricity for LP 791-18 d, which raises its internal temperature through tidal heating and could drive volcanic outgassing. We present three new transit observations of LP 791-18 c with Palomar/WIRC, including the most precise TTV measurements (< 6 seconds) of this planet to date. We fit these times with a TTV model to obtain updated constraints on the mass, eccentricity, and tidal heat flux of LP 791-18 d. We reduce the mass uncertainty by more than a factor of two (Md = 0.91 0.19 M). We perform an updated fit assuming tidally damped free eccentricities and find ed = 0.0011+0.0010-0.0008 and ec = 0.0001 0.0001, consistent with circular orbits. We find that the observed TTVs are not sensitive to e ≤ 0.01. Without a tidally damped eccentricity prior, ed = 0.056+0.015-0.014, much higher than the eccentricity predicted by n-body simulations incorporating the effects of dynamical excitation and tidal damping. We predict the timing of upcoming JWST secondary eclipse observations for LP 791-18 d, which could tightly constrain the eccentricity and tidal quality factor of this Earth-sized exoplanet.