Revisiting the Full Sets of Orbital Parameters for the XO-3 System: No evidence for Temporal Variation of the Spin-Orbit Angle

Abstract

We present 12 new transit light curves and 16 new out-of-transit radial velocity measurements for the XO-3 system. By modelling our newly collected measurements together with archival photometric and Doppler velocimetric data, we confirmed the unusual configuration of the XO-3 system, which contains a massive planet (MP=11.92+0.59-0.63 MJ) on a relatively eccentric (e=0.2853+0.0027-0.0026) and short-period (3.19152 0.00145\,day) orbit around a massive star (M*=1.219+0.090-0.095 M). Furthermore, we find no strong evidence for a temporal change of either V i* (and by extension, the stellar spin vector of XO-3), or the transit profile (and thus orbital angular momentum vector of XO-3b). We conclude that the discrepancy in previous Rossiter-McLaughlin measurements (70.0 15.0 (Hebrard et al. 2008); 37.3 3.7 (Winn et al. 2009); 37.3 3.0 (Hirano et al. 2011)) may have stemmed from systematic noise sources.