* Astronomy

Title: A transit timing analysis of seven RISE light curves of the exoplanet system HAT-P-3
Authors: N. P. Gibson (1), D. Pollacco (1), S. Barros (1), C. Benn (2), D. Christian (3), M. Hrudková (4), Y. C. Joshi (1), F. P. Keenan (1), E. K. Simpson (1), I. Skillen (2), I. A. Steele (5), I. Todd (1) ((1) Queen's University Belfast, (2) Isaac Newton Group of Telescopes, (3) California State University Northridge, (4) Charles University Prague, (5) Liverpool John Moores University)

We present seven light curves of the exoplanet system HAT-P-3, taken as part of a transit timing program using the RISE instrument on the Liverpool Telescope. The light curves are analysed using a Markov-Chain Monte-Carlo algorithm to update the parameters of the system. The inclination is found to be i = 86.75^{+0.22}_{-0.21} deg, the planet-star radius ratio to be R_p/R_star = 0.1098^{+0.0010}_{-0.0012}, and the stellar radius to be R_star = 0.834^{+0.018}_{-0.026} R_sun, consistent with previous results but with a significant improvement in the precision. Central transit times and uncertainties for each light curve are also determined, and a residual permutation algorithm used as an independent check on the errors. The transit times are found to be consistent with a linear ephemeris, and a new ephemeris is calculated as T_c(0) = 2454856.70118 ±0.00018 HJD and P = 2.899738 ±0.000007 days. Model timing residuals are fitted to the measured timing residuals to place upper mass limits for a hypothetical perturbing planet as a function of the period ratio. These show that we have probed for planets with masses as low as 0.33 M_earth and 1.81 M_earth in the interior and exterior 2:1 resonances, respectively, assuming the planets are initially in circular orbits.

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