Decaying Orbit of the Hot Jupiter WASP-12b: Confirmation with TESS Observations

Abstract

Theory suggests that the orbits of some close-in giant planets should decay due to tidal interactions with their host stars. To date, WASP-12b is the only hot Jupiter reported to have a decaying orbit, at a rate of 292 msec year-1. We analyzed data from NASA's Transiting Exoplanet Survey Satellite (TESS) to verify that WASP-12b's orbit is indeed changing. We find that the TESS transit and occultation data are consistent with a decaying orbit with an updated period of 1.0914200900.000000041 days and a decay rate of 32.531.62 msec year-1. We find an orbital decay timescale of τ = P/| P| = 2.900.14 Myr. If the observed decay results from tidal dissipation, the modified tidal quality factor is Q' = 1.390.15 × 105, which falls at the lower end of values derived for binary star systems and hot Jupiters. Our result highlights the power of space-based photometry for investigating the orbital evolution of short-period exoplanets.