Bibcode
Kagetani, Taiki; Narita, Norio; Kimura, Tadahiro; Hirano, Teruyuki; Ikoma, Masahiro; Ishikawa, Hiroyuki Tako; Giacalone, Steven; Fukui, Akihiko; Kodama, Takanori; Gore, Rebecca; Schroeder, Ashley; Hori, Yasunori; Kawauchi, Kiyoe; Watanabe, Noriharu; Mori, Mayuko; Zou, Yujie; Ikuta, Kai; Krishnamurthy, Vigneshwaran; Zink, Jon; Hardegree-Ullman, Kevin; Harakawa, Hiroki; Kudo, Tomoyuki; Kotani, Takayuki; Kurokawa, Takashi; Kusakabe, Nobuhiko; Kuzuhara, Masayuki; de Leon, Jerome P.; Livingston, John H.; Nishikawa, Jun; Omiya, Masashi; Palle, Enric; Parviainen, Hannu; Serizawa, Takuma; Teng, Huan-Yu; Ueda, Akitoshi; Tamura, Motohide
Bibliographical reference
Publications of the Astronomical Society of Japan
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8
2023
Citations
12
Refereed citations
9
Description
We report on the determination of the mass of TOI-519 b, a transiting substellar object around a mid-M dwarf. We carried out radial velocity measurements using Subaru/InfraRed Doppler (IRD), revealing that TOI-519 b is a planet with a mass of $0.463^{+0.082}_{-0.088}\, M_{\rm Jup}$. We also found that the host star is metal rich ([Fe/H] = 0.27 ± 0.09 dex) and has the lowest effective temperature (Teff = 3322 ± 49 K) among all stars hosting known close-in giant planets based on the IRD spectra and mid-resolution infrared spectra obtained with NASA Infrared Telescope Facility/SpeX. The core mass of TOI-519 b inferred from a thermal evolution model ranges from 0 to ~30 M⊕, which can be explained by both core accretion and disk instability models as the formation origins of this planet. However, TOI-519 is in line with the emerging trend that M dwarfs with close-in giant planets tend to have high metallicity, which may indicate that they formed in the core accretion model. The system is also consistent with the potential trend that close-in giant planets around M dwarfs tend to be less massive than those around FGK dwarfs.
Related projects
Exoplanets and Astrobiology
The search for life in the universe has been driven by recent discoveries of planets around other stars (known as exoplanets), becoming one of the most active fields in modern astrophysics. The growing number of new exoplanets discovered in recent years and the recent advance on the study of their atmospheres are not only providing new valuable
Enric
Pallé Bago