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Lego Figure holding a lego telescope. Photo

Jens Hoeijmakers

ASSOCIATE SENIOR LECTURER

Lego Figure holding a lego telescope. Photo

JWST NIRSpec finds no clear signs of an atmosphere on TOI-1685 b

Author

  • Chloe E. Fisher
  • Matthew J. Hooton
  • Amélie Gressier
  • Merlin Zgraggen
  • Meng Tian
  • Kevin Heng
  • Natalie H. Allen
  • Richard D. Chatterjee
  • Brett M. Morris
  • Nicholas W. Borsato
  • Néstor Espinoza
  • Daniel Kitzmann
  • Tobias G. Meier
  • Lars A. Buchhave
  • Adam J. Burgasser
  • Brice Olivier Demory
  • Mark Fortune
  • H. Jens Hoeijmakers
  • Raphael Luque
  • Erik A. Meier Valdés
  • João M. Mendonça
  • Bibiana Prinoth
  • Alexander D. Rathcke
  • Jake Taylor

Summary, in English

Determining the prevalence of atmospheres on terrestrial planets is a core objective in exoplanetary science. While M dwarf systems offer a promising opportunity, conclusive observations of terrestrial atmospheres have remained elusive, with many yielding flat transmission spectra. We observe four transits of the hot terrestrial planet TOI-1685 b using James Webb Space Telescope (JWST)’s Near Infrared Spectrograph (NIRSpec) G395H instrument. Combining this with the transit from the previously observed phase curve of the planet with the same instrument, we perform a detailed analysis to determine the possibility of an atmosphere on TOI-1685 b. From our retrievals, the Bayesian evidence favours a simple flat line model, indicating no evidence for an atmosphere on TOI-1685 b, in line with results from the phase curve analysis. Our results show that hydrogen-dominated atmospheres can be confidently ruled out. For heavier, secondary atmospheres we find a lower limit on the mean molecular weight of ≳ 10, at a significance of ~5σ. Pure CO2, SO2, H2O, and CH4 atmospheres, or a mixed secondary atmosphere (CO+ CO2+ SO2) could explain the data ( ∆ ln Z< 3). However, pure CH4 atmospheres may be physically unlikely, and the pure H2O and CO2 cases require a high-altitude cloud, which could also be interpreted as a thin cloud-free atmosphere. We discuss the theoretical possibility for different types of atmosphere on this planet, and consider the effects of atmospheric escape and stellar activity on the system. Though we find that TOI-1685 b is likely a bare rock, this study also highlights the challenges of detecting secondary atmospheres on rocky planets with JWST.

Department/s

  • Astrophysics
  • eSSENCE: The e-Science Collaboration

Publishing year

2026

Language

English

Publication/Series

Monthly Notices of the Royal Astronomical Society

Volume

545

Issue

4

Document type

Article

Publisher

Oxford University Press

Topic

  • Astronomy, Astrophysics and Cosmology
  • Meteorology and Atmospheric Sciences

Keywords

  • planets and satellites: terrestrial planets

Status

Published

ISBN/ISSN/Other

  • ISSN: 0035-8711