The sub-Saturn Mass Transiting Planet HAT-P-12b

Abstract

We present new photometric data of the transiting planet HAT-P-12b observed in 2011. Our three transit curves are modelled using the JKTEBOP code and adopting the quadratic limb-darkening law. Including our measurements, 18 transit times spanning about 4.2 yr were used to determine the improved ephemeris with a transit epoch of 2,454,187.855600.00011 BJD and an orbital period of 3.213059610.00000035 d. The physical properties of the star-planet system are computed using empirical calibrations from eclipsing binary stars and stellar evolutionary models, combined with both our transit parameters and previously-known spectroscopic results. We found that the absolute dimensions of the host star are M A=0.730.02 M, R A=0.700.01 R, log g A=4.610.02, A=2.100.09 , and L A=0.210.01 L. The planetary companion has M b=0.210.01 M Jup, R b=0.940.01 R Jup, log g b=2.770.02, b=0.240.01 Jup, and T eq=96014 K. Our results agree well with standard models of irradiated gas giants with a core mass of 11.3 M.