Article Dans Une Revue Astronomy & Astrophysics - A&A Année : 2024

A new atmospheric characterization of the sub-stellar companion HR 2562 B with JWST/MIRI observations

E. Choquet
E. Serabyn
  • Fonction : Auteur
C. Danielski
  • Fonction : Auteur
T. Stolker
  • Fonction : Auteur
B. Charnay
S. Hinkley
  • Fonction : Auteur
P. O. Lagage
  • Fonction : Auteur
M. E. Ressler
  • Fonction : Auteur
P. Tremblin
  • Fonction : Auteur

Résumé

Context. HR 2562 B is a planetary-mass companion at an angular separation of 0.56″ (19 au) from the host star, which is also a member of a select number of L/T transitional objects orbiting a young star. This companion gives us a great opportunity to contextualize and understand the evolution of young objects in the L/T transition. However, the main physical properties (e.g., Teff and mass) of this companion have not been well constrained (34% uncertainties on Teff, 22% uncertainty for log(g)) using only near-infrared (NIR) observations.Aims. We aim to narrow down some of its physical parameters uncertainties (e.g., Teff: 1200–1700 K, log(g): 4–5) incorporating new observations in the Rayleigh-Jeans tail with the JWST/MIRI filters at 10.65, 11.40, and 15.50 μm, as well as to understand its context in terms of the L/T transition and chemical composition.Methods. We processed the MIRI observations with reference star differential imaging (RDI) and detect the companion at high S/N (around 16) in the three filters, allowing us to measure its flux and astrometry. We used two atmospheric models, ATMO and Exo-REM, to fit the spectral energy distribution using different combinations of mid-IR and near-IR datasets. We also studied the color-magnitude diagram using the F1065C and F1140C filters combined with field brown dwarfs to investigate the chemical composition in the atmosphere of HR 2562 B, as well as a qualitative comparison with the younger L/T transitional companion VHS 1256 b.Results. We improved the precision on the temperature of HR 2562 B (Teff = 1255 K) by a factor of 6× compared to previous estimates (±15 K vs ±100 K) using ATMO. The precision of its luminosity was also narrowed down to −4.69 ± 0.01 dex. The surface gravity still presents a wider range of values (4.4 to 4.8 dex). While its mass was not narrowed down, we find the most probable values between 8 MJup (3−σ lower limit from our atmospheric modeling) and 18.5 MJup (from the upper limit provided by astrometric studies). We report a sensitivity to objects of mass ranging between 2–5 MJup at 100 au, reaching the lower limit at F1550C. We also implemented a few improvements in the pipeline related to the background subtraction and stages 1 and 2.Conclusions. HR 2562 B has a mostly (or near) cloud-free atmosphere, with the ATMO model demonstrating a better fit to the observations. From the color-magnitude diagram, the most probable chemical species at MIR wavelengths are silicates (but with a weak absorption feature); however, follow-up spectroscopic observations are necessary to either confirm or reject this finding. The mass of HR 2562 B could be better constrained with new observations at 3–4 μm. Although HR 2562 B and VHS 1256 b have very similar physical properties, both are in different evolutionary states in the L/T transition, which makes HR 2562 B an excellent candidate to complement our knowledge of young objects in this transition. Considering the actual range of possible masses, HR 2562 B could be considered as a planetary-mass companion; hence, its name then ought to be rephrased as HR 2562 b.

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Dates et versions

hal-04696296 , version 1 (12-09-2024)

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N. Godoy, E. Choquet, E. Serabyn, C. Danielski, T. Stolker, et al.. A new atmospheric characterization of the sub-stellar companion HR 2562 B with JWST/MIRI observations. Astronomy & Astrophysics - A&A, 2024, 689, pp.A185. ⟨10.1051/0004-6361/202449951⟩. ⟨hal-04696296⟩
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