HADES RV Programme with HARPS-N at TNG - VI. GJ?3942?b behind dominant activity signals

摘要

Context. Short- to mid-term magnetic phenomena on the stellar surface of M-type stars can resemble the effects of planets in radial velocity data, and may also hide them. Aims. We analyze 145 spectroscopic HARPS-N observations of GJ?3942 taken over the past five years and additional photometry in order to disentangle stellar activity effects from genuine Doppler signals as a result of the orbital motion of the star around the common barycenter with its planet. Methods. To achieve this, we use the common methods of pre-whitening, and treat the correlated red noise by a first-order moving average term and by Gaussian-process regression following an MCMC analysis. Results. We identify the rotational period of the star at 16.3?days and discover a new super-Earth, GJ?3942?b, with an orbital period of 6.9?days and a minimum mass of 7.1? M _(⊕) . An additional signal in the periodogram of the residuals is present, but at this point we cannot claim with sufficient significance that it is related to a second planet. If confirmed, this planet candidate would have a minimum mass of 6.3? M _(⊕) and a period of 10.4?days, which might indicate a 3:2 mean-motion resonance with the inner planet.