KELT-6b: A P~7.9 d Hot Saturn Transiting a Metal-Poor Star with a Long-Period Companion

Abstract

We report the discovery of KELT-6b, a mildly-inflated Saturn-mass planet transiting a metal-poor host. The initial transit signal was identified in KELT-North survey data, and the planetary nature of the occulter was established using a combination of follow-up photometry, high-resolution imaging, high-resolution spectroscopy, and precise radial velocity measurements. The fiducial model from a global analysis including constraints from isochrones indicates that the V=10.38 host star (BD+31 2447) is a mildly evolved, late-F star with Teff=6102 43 K, log(g*)=4.07-0.07+0.04 and [Fe/H]=-0.28 0.04, with an inferred mass M*=1.09 0.04 Msun and radius Rstar=1.58-0.09+0.16 Rsun. The planetary companion has mass MP=0.43 0.05 MJ, radius RP=1.19-0.08+0.13 RJ, surface gravity log(gP)=2.86-0.08+0.06, and density rhoP=0.31-0.08+0.07 g~cm-3. The planet is on an orbit with semimajor axis a=0.079 0.001 AU and eccentricity e=0.22-0.10+0.12, which is roughly consistent with circular, and has ephemeris of Tc(BJDTDB)=2456347.79679 0.00036 and P=7.845631 0.000046 d. Equally plausible fits that employ empirical constraints on the host star parameters rather than isochrones yield a larger planet mass and radius by ~4-7%. KELT-6b has surface gravity and incident flux similar to HD209458b, but orbits a host that is more metal poor than HD209458 by ~0.3 dex. Thus, the KELT-6 system offers an opportunity to perform a comparative measurement of two similar planets in similar environments around stars of very different metallicities. The precise radial velocity data also reveal an acceleration indicative of a longer-period third body in the system, although the companion is not detected in Keck adaptive optics images.