Litcius/Paper detail

WASP-35 and HAT-P-30/WASP-51: Reanalysis using TESS and Ground-based Transit Photometry

Lu Bai, Shenghong Gu, Xiaobin Wang, Leilei Sun, Chi-Tai Kwok, Ho-Keung Hui

2022The Astronomical Journal10 citationsDOIOpen Access PDF

Abstract

Abstract High-precision transit observations provide excellent opportunities for characterizing the physical properties of exoplanetary systems. These physical properties supply many pieces of information for unvealing the internal structure, external atmosphere, and dynamical history of the planets. We present revised properties of the transiting systems WASP-35 and HAT-P-30/WASP-51 through analyzing newly available TESS photometry and ground-based observations obtained at the 1 m telescope of the Yunnan Observatories as well as from the literature. The improved system parameters are consistent with previous results. Furthermore, we find that the transits of HAT-P-30b/WASP-51b show possible timing variation that cannot be explained by a decaying orbit due to tidal dissipation and the Rømer effect, while both apsidal precession and an additional perturbing body could reproduce this signal according to our comprehensive dynamical simulations. Because both systems are valuable targets that are suitable for transmission spectroscopy, we make some predictions for the atmospheric properties of WASP-35b and HAT-P-30b/WASP-51b based on the newly derived system parameters.

Topics & Concepts

PhysicsPhotometry (optics)Transit (satellite)AstronomyAstrophysicsStarsTransport engineeringPublic transportEngineeringStellar, planetary, and galactic studiesAtmospheric Ozone and ClimateSolar and Space Plasma Dynamics