Possible detection of a bimodal cloud distribution in the atmosphere of HAT-P-32\,A\,b from multi-band photometry

Abstract

We present high-precision photometry of eight separate transit events in the HAT-P-32 planetary system. One transit event was observed simultaneously by two telescopes of which one obtained a simultaneous multi-band light curve in three optical bands, giving a total of 11 transit light curves. Due to the filter selection and in conjunction with using the defocussed photometry technique we were able to obtain an extremely high precision, ground-based transit in the u-band (350\,nm), with an rms scatter of ≈ 1\,mmag. All 11 transits were modelled using prism and gemc, and the physical properties of the system calculated. We find the mass and radius of the host star to be 1.182 0.041 and 1.2250.015, respectively. For the planet we find a mass of 0.80 0.14, a radius of 1.8070.022 and a density of 0.1260.023. These values are consistent with those found in the literature. We also obtain a new orbital ephemeris for the system T0 = BJD/TDB \,\, 2\,454\,420.447187 (96) \, + \,2.15000800 (10) × E . We measured the transmission spectrum of HAT-P-32\,A\,b and compared it to theoretical transmission spectra. Our results indicate a bimodal cloud particle distribution consisting of Rayleigh--like haze and grey absorbing cloud particles within the atmosphere of HAT-P-32\,A\,b.