TOI-2458 b: A mini-Neptune consistent with in situ hot Jupiter formation

Abstract

We report on the discovery and spectroscopic confirmation of TOI-2458 b, a transiting mini-Neptune around an F-type star leaving the main-sequence with a mass of M=1.05 0.03 M, a radius of R=1.31 0.03 R, an effective temperature of T eff=600550 K, and a metallicity of -0.100.05 dex. By combining TESS photometry with high-resolution spectra acquired with the HARPS spectrograph, we found that the transiting planet has an orbital period of 3.74 days, a mass of Mp=13.310.99 M and a radius of Rp=2.830.20 R. The host star TOI-2458 shows a short activity cycle of 54 days revealed in the HARPS S-index and Hα times series. We took the opportunity to investigate other F stars showing activity cycle periods comparable to that of TOI-2458 and found that they have shorter rotation periods than would be expected based on the gyrochronology predictions. In addition, we determined TOI-2458's stellar inclination angle to be i\,=\,10.6-10.6+13.3 degrees. We discuss that both phenomena (fast stellar rotation and planet orbit inclination) could be explained by in situ formation of a hot Jupiter interior to TOI-2458 b. It is plausible that this hot Jupiter was recently engulfed by the star. Analysis of HARPS spectra has identified the presence of another planet with a period of P\,=\,16.550.06 days and a minimum mass of Mp i=10.221.90 M. Using dynamical stability analysis, we constrained the mass of this planet to the range Mc (10, 25) M.