The GAPS programme at TNG LXXI. A sub-Neptune suitable for atmospheric characterization in a multiplanet and mutually inclined system orbiting the bright K dwarf TOI-5789 (HIP 99452)
Abstract
Sub-Neptunes with planetary radii of Rp 2-4 R are the most common planets around solar-type stars in short-period (P<100 d) orbits. It is still unclear, however, what their most likely composition is, that is whether they are predominantly gas dwarfs or water worlds. The sub-Neptunes orbiting bright host stars are very valuable because they are suitable for atmospheric characterization, which can break the well-known degeneracy in planet composition from the planet bulk density, when combined with a precise and accurate mass measurement. Here we report on the characterization of the sub-Neptune TOI-5789 c, which transits in front of the bright (V=7.3 mag and Ks=5.35 mag) and magnetically inactive K1V dwarf HIP 99452 every 12.93 days, thanks to TESS photometry and 141 high-precision radial velocities obtained with the HARPS-N spectrograph. We find that its radius, mass, and bulk density are Rc=2.86+0.18-0.15 R, Mc=5.00 0.50 M, and c=1.16 0.23 g cm-3, and we show that TOI-5789 c is a promising target for atmospheric characterization with both JWST and, in the future, Ariel. By analyzing the HARPS-N radial velocities with different tools, we also detected three additional non-transiting planets, namely TOI-5789 b, d, and e, with orbital periods and minimum masses of Pb=2.76 d, Mbi=2.12 0.28 M, Pd=29.6 d, Mdi=4.29 0.68 M, and Pe=63.0 d, Mei=11.61 0.97 M. TOI-5789 is a mutually inclined system as the difference between the orbital inclinations of planets b and c must be higher than 4 deg. Nevertheless, from sensitivity studies based on both the HARPS-N and archival HIRES radial-velocity measurements, we can exclude that these relatively high mutual inclinations are due to the perturbation by an outer gaseous giant planet.
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