The Astronomical Journal (Jan 2024)

Early Results from the HUMDRUM Survey: A Small, Earth-mass Planet Orbits TOI-1450A

  • Madison Brady,
  • Jacob L. Bean,
  • Andreas Seifahrt,
  • David Kasper,
  • Rafael Luque,
  • Guđmundur Stefánsson,
  • Julian Stürmer,
  • David Charbonneau,
  • Karen A. Collins,
  • John P. Doty,
  • Zahra Essack,
  • Akihiko Fukui,
  • Ferran Grau Horta,
  • Christina Hedges,
  • Coel Hellier,
  • Jon M. Jenkins,
  • Norio Narita,
  • Samuel N. Quinn,
  • Avi Shporer,
  • Richard P. Schwarz,
  • Sara Seager,
  • Keivan G. Stassun,
  • Stephanie Striegel,
  • Cristilyn N. Watkins,
  • Joshua N. Winn,
  • Roberto Zambelli

DOI
https://doi.org/10.3847/1538-3881/ad500a
Journal volume & issue
Vol. 168, no. 2
p. 67

Abstract

Read online

M-dwarf stars provide us with an ideal opportunity to study nearby small planets. The HUnting for M Dwarf Rocky planets Using MAROON-X (HUMDRUM) survey uses the MAROON-X spectrograph, which is ideally suited to studying these stars, to measure precise masses of a volume-limited (<30 pc) sample of transiting M-dwarf planets. TOI-1450 is a nearby (22.5 pc) binary system containing a M3 dwarf with a roughly 3000 K companion. Its primary star, TOI-1450A, was identified by the Transiting Exoplanet Survey Satellite (TESS) to have a 2.04 days transit signal, and is included in the HUMDRUM sample. In this paper, we present MAROON-X radial velocities (RVs) which confirm the planetary nature of this signal and measure its mass at nearly 10% precision. The 2.04 days planet, TOI-1450A b, has R _b = 1.13 ± 0.04 R _⊕ and M _b = 1.26 ± 0.13 M _⊕ . It is the second-lowest-mass transiting planet with a high-precision RV mass measurement. With this mass and radius, the planet’s mean density is compatible with an Earth-like composition. Given its short orbital period and slightly sub-Earth density, it may be amenable to JWST follow-up to test whether the planet has retained an atmosphere despite extreme heating from the nearby star. We also discover a nontransiting planet in the system with a period of 5.07 days and a $M\sin {i}_{c}=1.53\,\pm \,0.18\,{M}_{\oplus }$ . We also find a 2.01 days signal present in the systems’s TESS photometry that likely corresponds to the rotation period of TOI-1450A’s binary companion, TOI-1450B. TOI-1450A, meanwhile, appears to have a rotation period of approximately 40 days, which is in line with our expectations for a mid-M dwarf.

Keywords