A Trio of Giant Planets Orbiting Evolved Star HD 184010

Abstract

We report the discovery of a triple-giant-planet system around an evolved star HD 184010 (HR 7421, HIP 96016). This discovery is based on observations from Okayama Planet Search Program, a precise radial velocity survey, undertaken at Okayama Astrophysical Observatory between 2004 April and 2021 June. The star is K0 type and located at beginning of the red-giant branch. It has a mass of 1.35-0.21+0.19 M, a radius of 4.86-0.49+0.55 R, and a surface gravity g of 3.18-0.07+0.08. The planetary system is composed of three giant planets in a compact configuration: The planets have minimum masses of Mb i = 0.31-0.04+0.03 MJ, Mc i = 0.30-0.05+0.04 MJ, and Md i = 0.45-0.06+0.04 MJ, and orbital periods of Pb=286.6-0.7+2.4\ d, Pc=484.3-3.5+5.5\ d, and Pd=836.4-8.4+8.4\ d, respectively, which are derived from a triple Keplerian orbital fit to three sets of radial velocity data. The ratio of orbital periods are close to Pd:Pc:Pb 21:12:7, which means the period ratios between neighboring planets are both lower than 2:1. The dynamical stability analysis reveals that the planets should have near-circular orbits. The system could remain stable over 1 Gyr, initialized from co-planar orbits, low eccentricities (e=0.05), and planet masses equal to the minimum mass derived from the best-fit circular orbit fitting. Besides, the planets are not likely in mean motion resonance. HD 184010 system is unique: it is the first system discovered to have a highly evolved star ( g < 3.5 cgs) and more than two giant planets all with intermediate orbital periods (102\ d < P < 103\ d).