A Short History of (Orbital) Decay: Roman's Prospects for Detecting Dying Planets
Abstract
The Roman Space Telescope Galactic Bulge Time Domain Survey (GBTDS) is expected to detect ~105 transiting planets. Many of these planets will have short orbital periods and are thus susceptible to tidal decay. We use a catalog of simulated transiting planet detections to predict the yield of orbital decay detections in the Roman GBTDS. Assuming a constant stellar tidal dissipation factor, Q'*, of 106, we predict ~ 5 - 10 detections. We additionally consider an empirical period-dependent parameterization of Q'* P-3 and find a substantially suppressed yield. We conclude that Roman will provide constraints on the rate of planet engulfment in the Galaxy and probe the physics of tidal dissipation in stars.
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