부산대학교 도서관

We present an empirical study of orbital decay for the exoplanet WASP-19b, based on mid-time measurements of 74 complete transits (12 newly obtained by our team and 62 from the literature), covering a 10-yr baseline. A linear ephemeris best represents the mid-transit times as a function of epoch. Thus, we detect no evidence of the shortening of WASP-19b's orbital period and establish an upper limit of its steady changing rate, |$\dot{P}=-2.294$|  ms yr−1, and a lower limit for the modified tidal quality factor |$Q^{\prime }_{\star } = (1.23 \pm 0.231) \times 10^{6}$|⁠. Both are in agreement with previous works. This is the first estimation of |$Q^{\prime }_{\star }$| directly derived from the mid-times of WASP-19b obtained through homogeneously analysed transit measurements. Additionally, we do not detect periodic variations in the transit timings within the measured uncertainties in the mid-times of transit. We are therefore able to discard the existence of planetary companions in the system down to a few M⊕ in the first-order mean-motion resonances 1:2 and 2:1 with WASP-19b, in the most conservative case of circular orbits. Finally, we measure the empirical |$Q^{\prime }_{\star }$| values of 15 exoplanet host stars, which suggest that stars with T eff ≲ 5600 K dissipate tidal energy more efficiently than hotter stars. This tentative trend needs to be confirmed with a larger sample of empirically measured |$Q^{\prime }_{\star }$|⁠. [ABSTRACT FROM AUTHOR]