OGLE-2018-BLG-1269Lb: A Jovian Planet With A Bright, I=16 Host

Abstract

We report the discovery of a planet in the microlensing event OGLE-2018-BLG-1269, with planet-host mass ratio q 6×10-4, i.e., 0.6 times smaller than the Jupiter/Sun mass ratio. Combined with the Gaia parallax and proper motion, a strong one-dimensional constraint on the microlens parallax vector allows us to significantly reduce the uncertainties of lens physical parameters. A Bayesian analysis that ignores any information about light from the host yields that the planet is a cold giant (M2 = 0.69-0.22+0.44\,M J) orbiting a Sun-like star (M1 = 1.13-0.35+0.72\,M) at a distance of D L = 2.56-0.62+0.92\, kpc. The projected planet-host separation is a = 4.61-1.17+1.70\, au. Using Gaia astrometry, we show that the blended light lies 12\,mas from the host and therefore must be either the host star or a stellar companion to the host. An isochrone analysis favors the former possibility at >99.6\%. The host is therefore a subgiant. For host metallicities in the range of 0.0 ≤ [Fe/H] ≤ +0.3, the host and planet masses are then in the range of 1.16 ≤ M1/M ≤ 1.38 and 0.74 ≤ M2/M J ≤ 0.89, respectively. Low host metallicities are excluded. The brightness and proximity of the lens make the event a strong candidate for spectroscopic followup both to test the microlensing solution and to further characterize the system.