The Astrophysical Journal Letters (Jan 2023)

ALMA Reveals a Stable Rotating Gas Disk in a Paradoxical Low-mass, Ultradusty Galaxy at z = 4.274

  • Alexandra Pope,
  • Jed McKinney,
  • Patrick Kamieneski,
  • Andrew Battisti,
  • Itziar Aretxaga,
  • Gabriel Brammer,
  • Jose M. Diego,
  • David H. Hughes,
  • Erica Keller,
  • Danilo Marchesini,
  • Andrew Mizener,
  • Alfredo Montaña,
  • Eric Murphy,
  • Katherine E. Whitaker,
  • Grant Wilson,
  • Min Yun

DOI
https://doi.org/10.3847/2041-8213/acdf5a
Journal volume & issue
Vol. 951, no. 2
p. L46

Abstract

Read online

We report ALMA detections of [C ii ] and a dust continuum in Az9, a multiply imaged galaxy behind the Frontier Field cluster MACS J0717.5+3745. The bright [C ii ] emission line provides a spectroscopic redshift of z = 4.274. This strongly lensed ( μ = 7 ± 1) galaxy has an intrinsic stellar mass of only 2 × 10 ^9 M _⊙ and a total star formation rate of 26 M _⊙ yr ^−1 (∼80% of which is dust-obscured). Using public magnification maps, we reconstruct the [C ii ] emission in the source plane to reveal a stable, rotation-dominated disk with V / σ = 5.3, which is >2× higher than predicted from simulations for similarly high-redshift, low-mass galaxies. In the source plane, the [C ii ] disk has a half-light radius of 1.8 kpc and, along with the dust, is spatially offset from the peak of the stellar light by 1.4 kpc. Az9 is not deficient in [C ii ]; L _[C _II _] / L _IR = 0.0027, consistent with local and high-redshift normal star-forming galaxies. While dust-obscured star formation is expected to dominate in higher-mass galaxies, such a large reservoir of dust and gas in a lower-mass disk galaxy 1.4 Gyr after the Big Bang challenges our picture of early galaxy evolution. Furthermore, the prevalence of such low-mass dusty galaxies has important implications for the selection of the highest-redshift dropout galaxies with JWST. As one of the lowest stellar mass galaxies at z > 4 to be detected in a dust continuum and [C ii ], Az9 is an excellent laboratory in which to study early dust enrichment in the interstellar medium.

Keywords