摘要:We measure the bulk system parameters of the seismically active, rapidly rotating δ-Scuti KOI-976 and constrain the orbit geometry of its transiting binary companion using a combined approach of asteroseismology and gravity-darkening light curve analysis. KOI-976 is a 1.62±0.2 M e star with a measured v sin(i) of 120±2 km s −1 and seismically induced variable signal that varies by ∼0.6% of the star’s total photometric brightness. We take advantage of the star’s oblate shape and seismic activity to perform three measurements of its obliquity angle relative to the plane of the sky. We first apply a rotational splitting theory to the star’s variable signal observed in short-cadence Kepler photometry to constrain KOI-976ʼs obliquity angle, and then subtract off variability from that data set using the linear algorithm for significance reduction software LASR. We perform gravity-darkened fits to Kepler variability-subtracted short-cadence photometry and to Kepler’s phase-folded long-cadence photometry to obtain two more measurements of the star’s obliquity. We find that the binary system transits in a grazing configuration with measured obliquity values of 36°±17°, 46°±16°, and 43°±20°, respectively, for the three measurements. We perform these analyses as a way to demonstrate overcoming the challenges high-mass stars can present to transit light curve fitting and to prepare for the large number of exoplanets that the Transiting Exoplanet Survey Satellite will discover orbiting A/F stars.
关键词:planets and satellites: detection;planets and satellites: fundamental parameters;stars: variables: delta Scuti
