The mass of the exo-Venus Gliese 12 b, as revealed by HARPS-N, ESPRESSO, and CARMENES

Abstract

Small temperate planets are prime targets for exoplanet studies due to their possible similarities with the rocky planets in the Solar System. M dwarfs are promising hosts since the planetary signals are within our current detection capabilities. Gliese 12 b is a Venus-sized temperate planet orbiting a quiet M dwarf. We present here the first precise mass measurement of this small exoplanet. We performed a detailed analysis using HARPS-N, ESPRESSO, and CARMENES radial velocities, along with new and archival , , and MuSCAT2/3 photometry data. From fitting the available data, we find that the planet has a radius of Rp = 0.930.06 \,R and a mass of Mp = 0.95+0.29-0.30 \,M (a 3.2σ measurement of the semi-amplitude K=0.670.21\,m\,s-1), and is on an orbit with a period of 12.761418+0.000060-0.000055\,d. A variety of techniques were utilised to attenuate stellar activity signals. Gliese 12 b has an equilibrium temperature of Teq=317 8\,K, assuming an albedo of zero, and a density consistent with that of Earth and Venus (p=6.42.4\,g\,cm-3). We find that Gliese 12 b has a predominantly rocky interior and simulations indicate that it is unlikely to have retained any of its primordial gaseous envelope. The bulk properties of Gliese 12 b place it in an extremely sparsely populated region of both mass--radius and density--Teq parameter space, making it a prime target for follow-up observations, including Lyman-α studies.