KELT-16b: A highly irradiated, ultra-short period hot Jupiter nearing tidal disruption

Abstract

We announce the discovery of KELT-16b, a highly irradiated, ultra-short period hot Jupiter transiting the relatively bright (V = 11.7) star TYC 2688-1839-1. A global analysis of the system shows KELT-16 to be an F7V star with Teff = 623654 K, g = 4.253-0.036+0.031, [Fe/H] = -0.002-0.085+0.086, M = 1.211-0.046+0.043 M, and R = 1.360-0.053+0.064 R. The planet is a relatively high mass inflated gas giant with MP = 2.75-0.15+0.16 MJ, RP = 1.415-0.067+0.084 RJ, density P = 1.200.18 g cm-3, surface gravity gP = 3.530-0.049+0.042, and Teq = 2453-47+55 K. The best-fitting linear ephemeris is TC = 2457247.247910.00019 BJDtdb and P = 0.9689951 0.0000024 d. KELT-16b joins WASP-18b, -19b, -43b, -103b, and HATS-18b as the only giant transiting planets with P < 1 day. Its ultra-short period and high irradiation make it a benchmark target for atmospheric studies by HST, Spitzer, and eventually JWST. For example, as a hotter, higher mass analog of WASP-43b, KELT-16b may feature an atmospheric temperature-pressure inversion and day-to-night temperature swing extreme enough for TiO to rain out at the terminator. KELT-16b could also join WASP-43b in extending tests of the observed mass-metallicity relation of the Solar System gas giants to higher masses. KELT-16b currently orbits at a mere 1.7 Roche radii from its host star, and could be tidally disrupted in as little as a few × 105 years (for a stellar tidal quality factor of Q*' = 105). Finally, the likely existence of a widely separated bound stellar companion in the KELT-16 system makes it possible that Kozai-Lidov oscillations played a role in driving KELT-16b inward to its current precarious orbit.