The Astrophysical Journal (Jan 2024)

A Comprehensive Metallicity Analysis of J0332−3557: Establishing a z ∼ 4 Anchor for Direct Gas Metallicity and C/O Abundance Investigations

  • Annalisa Citro,
  • Danielle A. Berg,
  • Dawn K. Erb,
  • Matthew W. Auger,
  • George D. Becker,
  • Bethan L. James,
  • Evan D. Skillman

DOI
https://doi.org/10.3847/1538-4357/ad4600
Journal volume & issue
Vol. 969, no. 2
p. 148

Abstract

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We provide one of the most comprehensive metallicity studies at z ∼ 4 by analyzing the UV/optical Hubble Space Telescope photometry and rest-frame Very Large Telescope (VLT)/FORS2 UV and VLT/XSHOOTER optical spectra of J0332−3557, a gravitationally lensed galaxy magnified by a factor of 20. With a 5 σ detection of the auroral O iii ] λ 1666 line, we are able to derive a direct gas metallicity estimate for our target. We find Z _gas $=12+\mathrm{log}({\rm{O}}/{\rm{H}})=8.26\pm 0.06$ , which is compatible with an increase of both the gas fraction and the outflow metal loading factor from z ∼ 0 to z ∼ 4. J0332−3557 is the most metal-rich individual galaxy at z ∼ 4 for which the C/O ratio has been measured. We derive a low log(C/O) = −1.02 ± 0.2, which suggests that J0332−3557 is in the early stages of interstellar medium carbon enrichment driven mostly by massive stars. The low C/O abundance also indicates that J0332−3557 is characterized by a low star formation efficiency, higher yields of oxygen, and longer burst duration. We find that EW _C _III _]1906,9 is as low as ∼3 Å, and the main drivers of the low EW _C _III _]1906,9 are the higher gas metallicity and the low C/O abundance. J0332−3557 is characterized by one diffuse and two more compact regions ∼1 kpc in size. We find that the carbon emission mostly originates in the compact knots. Our study on J0332−3557 serves as an anchor for studies investigating the evolution of metallicity and C/O abundance across different redshifts.

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