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Aims. We report the confirmation of a new transiting exoplanet orbiting the star TOI-5076. Methods. We present our vetting procedure and follow-up observations which led to the confirmation of the exoplanet TOI-5076b. In particular, we employed high-precision TESS photometry, high-angular-resolution imaging from several telescopes, and high-precision radial velocities from HARPS-N. Results. From the HARPS-N spectroscopy, we determined the spectroscopic parameters of the host star: T₄₅₅= (5070143) K, log~g= (4. 60. 3), Fe/H= (+0. 200. 08), and /Fe=0. 050. 06. The transiting planet is a warm sub-Neptune with a mass mₚ= (162) M_, a radius rₚ= (3. 20. 1) ~R_ yielding a density ₚ= (2. 80. 5) g cm^-3. It revolves around its star approximately every 23. 445 days. Conclusions. The host star is a metal-rich, K2V dwarf, located at about 82 pc from the Sun with a radius of R_= (0. 780. 01) R_ and a mass of M_= (0. 800. 07) M_. It forms a common proper motion pair with an M-dwarf companion star located at a projected separation of 2178 au. The chemical analysis of the host-star and the Galactic-space velocities indicate that TOI-5076 belongs to the old population of thin-to-thick-disk transition stars. The density of TOI-5076b suggests the presence of a large fraction by volume of volatiles overlying a massive core. We found that a circular orbit solution is marginally favored with respect to an eccentric orbit solution for TOI-5076b.
Montalto et al. (Wed,) studied this question.
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