Planets around the evolved stars 24 Booties and γ Libra: A 30d-period planet and a double giant-planet system in possible 7:3 MMR

Abstract

We report the detection of planets around two evolved giant stars from radial velocity measurements at Okayama Astrophysical observatory. 24 Boo (G3IV) has a mass of 0.99\,M, a radius of 10.64\,R, and a metallicity of [Fe/H]=-0.77. The star hosts one planet with a minimum mass of 0.91\,M Jup and an orbital period of 30.35 d. The planet has one of the shortest orbital periods among those ever found around evolved stars by radial-veloocity methods. The stellar radial velocities show additional periodicity with 150 d, which are probably attributed to stellar activity. The star is one of the lowest-metallicity stars orbited by planets currently known. γ Lib (K0III) is also a metal-poor giant with a mass of 1.47\,M, a radius of 11.1\,R, and [Fe/H]=-0.30. The star hosts two planets with minimum masses of 1.02M Jup and 4.58\,M Jup, and periods of 415 d and 964 d, respectively. The star has the second lowest metallicity among the giant stars hosting more than two planets. Dynamical stability analysis for the γ Lib system sets a minimum orbital inclination angle to be about 70 and suggests that the planets are in 7:3 mean-motion resonance, though the current best-fitted orbits to the radial-velocity data are not totally regular.