TOI-333b: A Neptune Desert planet around a F7V star
Abstract
Observations have shown that planets similar to Neptune are rarely found orbiting Sun-like stars with periods up to ~4 days, defining the so-called Neptune desert region. Therefore, the detection of each individual planet in this region holds a high value, providing detailed insights into how such a population came to form and evolve. Here we report the detection of TOI-333b, a Neptune desert planet with a mass, radius, and bulk density of 20.1 2.4 M, 4.26 0.11 R, and 1.42 0.21 , respectively. The planet orbits a F7V star every 3.78 d, whose mass, radius and effective temperature are of 1.2 0.1 , 1.10 0.03 , and 6241+73-62 K, respectively. TOI-333b is likely younger than 1 Gyr, which is supported by the presence of the doublet Li line around 6707.856 textup~ and its comparison to Li abundances in open clusters with well constrained ages. The planet is expected to host only 8.5+10.9-8.3\% gas-to-core mass ratio for a H/He envelope. On the other hand, irradiated ocean world models predict 20+11-10\% H2O mass fraction with a core fraction of 35+20-23\%. Therefore, we expect that TOI-333b internal composition may be dominated by a pure rocky composition with almost no H/He envelope, or a rocky world with almost equal mass fraction of water. Finally, TOI-333b is more massive and larger than 77\% and 82\% of its Neptune desert counterparts, respectively, while its host ranks among the hottest known for Neptune Desert planets, making this system a unique laboratory to study the evolution of such planets around hot stars.
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