Mass determination of the three long-period Neptune- and sub-Neptune-sized planets transiting TOI-282
Abstract
TOI-282 is a bright (V=9.38) F8 main-sequence star known to host three transiting long-period (Pb=22.9 d, Pc=56.0 d, and Pd=84.3 d) small (Rp≈ 2-4 R) planets. The orbital period ratio of the two outermost planets, namely TOI-282 c and d, is close to the 3:2 commensurability, suggesting that the planets might be trapped in a mean motion resonance. We combined space-borne photometry from the TESS telescope with high-precision HARPS and ESPRESSO Doppler measurements to refine orbital parameters, measure the planetary masses, and investigate the architecture and evolution of the system. We performed a Markov chain Monte Carlo joint analysis of the transit light curves and radial velocity time series, and carried out a dynamical analysis to model transit timing variations and Doppler measurements along with N-body integration. In agreement with previous results, we found that TOI-282 b, c, and d have radii of Rb=2.69 0.23 \ R, Rc=4.13+0.16-0.14 \ R, and Rd=3.11 0.15 \ R, respectively. We measured planetary masses of Mb=6.21.6 \ M, Mc=9.22.0 \ M, and Md=5.8+0.9-1.1 \ M, which imply mean densities of b=1.8+0.7-0.6 \ g cm-3, c=0.7 0.2 \ g cm-3, and d=1.1+0.3-0.2 \ g cm-3, respectively. The three planets may be water worlds, making TOI-282 an interesting system for future atmospheric follow-up observations with JWST and ELT.
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