A sub-Neptune planet around TOI-1695 discovered and characterized with SPIRou and TESS

Abstract

TOI-1695 is a V-mag=13 M-dwarf star from the northern hemisphere at 45\,pc from the Sun, around which a 3.134-day periodic transit signal from a super-Earth candidate was identified in TESS photometry. With a transit depth of 1.3\,mmag, the radius of candidate TOI-1695.01 was estimated by the TESS pipeline to be 1.82\,R with an equilibrium temperature of 620\,K. We successfully detect a reflex motion of the star and establish it is due to a planetary companion at an orbital period consistent with the photometric transit period thanks to a year-long radial-velocity monitoring of TOI-1695 by the SPIRou infrared spectropolarimeter. We use and compare different methods to reduce and analyse those data. We report a 5.5-σ detection of the planetary signal, giving a mass of 5.5 1.0\,M and a radius of 2.03 0.18\,R. We derive a mean equilibrium planet temperature of 590 90\,K. The mean density of this small planet of 3.6 1.1\,g\,cm-3 is similar (1.7-σ lower) than that of the Earth. It leads to a non-negligible fraction of volatiles in its atmosphere with fH,He=0.28+0.46-0.23% or fwater=23 12%. TOI-1695\,b is a new sub-Neptune planet at the border of the M-dwarf radius valley that can help test formation scenarios for super-Earth/sub-Neptune-like planets.

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