WASP-80b: A Warm Jupiter Around a K Dwarf With a Hazy, 600 K Atmopshere

Multi-band, Multi-epoch Observations of the Transiting Warm Jupiter WASP-80b

Authors:

Fukui et al

Abstract:

WASP-80b is a warm Jupiter transiting a bright late-K dwarf, providing a good opportunity to extend the atmospheric study of hot Jupiters toward the lower temperature regime. We report multi-band, multi-epoch transit observations of WASP-80b by using three ground-based telescopes covering from optical (g', Rc, and Ic bands) to near infrared (NIR; J, H, and Ks bands) wavelengths. We observe five primary transits, each of which in three or four different bands simultaneously, obtaining 17 independent transit light curves. Combining them with previous works, we find that the observed transmission spectrum is largely consistent with both a solar-abundance and thick-cloud atmospheric models at 1.7-σ discrepancy level. On the other hand, we find a marginal spectral rise in optical region compared to NIR region at 2.9-σ level, which possibly indicates the existence of haze in the atmosphere. We simulate theoretical transmission spectra for a solar-abundance but hazy atmosphere, finding that a model with equilibrium temperature of 600 K can explain the observed data well, having the discrepancy level of 1.0 σ. We also search for transit timing variations, but find no timing excess larger than 50 s from a linear ephemeris. In addition, we conduct 43-day-long photometric monitoring of the host star in the optical bands, finding no significant variation of the stellar brightness. Combined with the fact that no spot-crossing event is observed in the five transits, our results confirm previous findings that the host star appears quiet as for spot activities, despite the indications of strong chromospheric activities.