The Astronomical Journal (Jan 2023)

Disks around Young Planetary-mass Objects: Ultradeep Spitzer Imaging of NGC 1333

  • Aleks Scholz,
  • Koraljka Muzic,
  • Ray Jayawardhana,
  • Victor Almendros-Abad,
  • Isaac Wilson

DOI
https://doi.org/10.3847/1538-3881/acc65d
Journal volume & issue
Vol. 165, no. 5
p. 196

Abstract

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We report on a sensitive infrared search for disks around isolated young planetary-mass objects (PMOs) in the NGC 1333 cluster, by stacking 70 Spitzer/IRAC frames at 3.6 and 4.5 μ m. Our coadded images go >2.3 mag deeper than single-epoch frames, and cover 50 brown dwarfs, 15 of which have M9 or later spectral types. Spectral types >M9 correspond to masses in the giant-planet domain, i.e., near or below the deuterium-burning limit of 0.015 M _⊙ . Five of the 12 PMOs show definitive evidence of excess, implying a disk fraction of 42%, albeit with a large statistical uncertainty given the small sample. Comparing with measurements for higher-mass objects, the disk fraction does not decline substantially with decreasing mass in the substellar domain, consistent with previous findings. Thus, free-floating PMOs have the potential to form their own miniature planetary systems. We note that only one of the six lowest-mass objects in NGC 1333, with spectral type L0 or later, has a confirmed disk. Reviewing the literature, we find that the lowest-mass free-floating objects with firm disk detections have masses ∼0.01 M _⊙ (or ∼10 M _Jup ). It is not clear yet whether even lower-mass objects harbor disks. If not, it may indicate that ∼10 M _Jup is the lower-mass limit for objects that form like stars. Our disk-detection experiment on deep Spitzer images paves the way for studies with JWST at longer wavelengths and higher sensitivity, which will further explore disk prevalence and formation of free-floating PMOs.

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