Post-Keplerian obliquity variations and the habitability of rocky planets orbiting fast spinning, oblate late M dwarfs

Abstract

A couple of dozen Earth-like planets orbiting M dwarfs have been discovered so far. Some of them have attracted interest because of their potential long-term habitability; such a possibility is currently vigorously debated in the literature. I show that post-Keplerian (pK) orbit precessions may impact the habitability of a fictitious telluric planet orbiting an oblate late-type M dwarf of spectral class M9V with M=0.08\,M at a=0.02\,au, corresponding to an orbital period Pb 4\,d, inducing long-term variations of the planetary obliquity which, under certain circumstances, may not be deemed as negligible from the point of view of life's sustainability. I resume the analytical orbit-averaged equations of the pK precessions, both classical and general relativistic, of the unit vectors S,\,h of both the planet's spin and orbital angular momenta S,\,L entering , and numerically integrate them by producing time series of the pK changes (t) of the obliquity. For rapidly rotating M dwarfs with rotational periods of the order of P 0.1-1\,d, the planet's obliquity can undergo classical pK large variations (t) up to tens of degrees over timescales t 20-200\,kyr, depending on the mutual orientations of the star's spin J, of S, and of L. Instead, (t) are 1-1.5 for the planet b of the Teegarden's Star. In certain circumstances, the M dwarf's oblateness J2 should be considered as one of the key dynamical features to be taken into account in compiling budgets of the long-term habitability of rocky planets around fast spinning late M dwarfs. (Abridged)