GA-NIFS: An extremely nitrogen-loud and chemically stratified galaxy at z 5.55

Abstract

We report the chemical abundance pattern of GS\3073, a galaxy at z=5.55 which was previously confirmed to host an overmassive active black hole, by leveraging the detection of about 40 emission lines, combining JWST/NIRSpec observations and ground-based (VLT/VIMOS) data. Based on the rest-frame UV emission lines, which trace high-density ( 105~ cm-3) and highly ionized gas, we derived an abundance ratio of log(N/O) = 0.42+0.13-0.10. At an estimated metallicity of 0.2~Z, this is the most extreme nitrogen-rich object found by JWST thus far. In comparison, the relative carbon abundance derived from the rest-frame UV emission lines is log(C/O) = -0.38+0.13-0.11, which is not significantly higher than those in local galaxies and stars with similar metallicities. We also found potential detection of coronal lines including [FeVII]λ 6087 and [FeXIV]λ 5303, both blended with [CaV]. We inferred a range of Fe abundances compatible with those in local stars and galaxies. Overall, the chemical abundance pattern of GS\3073 is compatible with enrichment by super-massive stars with M* 1000~M, asymptotic giant branch (AGB) stars, or Wolf-Rayet (WR) stars. Interestingly, when using optical emission lines which trace lower density ( 103~ cm-3) and lower ionization gas, we found a sub-solar N/O ratio. We interpret the difference in N/O derived from UV lines and optical lines as evidence for a stratified system, where the inner and denser region is both more chemically enriched and more ionized. Taking this luminous, well-studied system as a benchmark, our results suggest that nitrogen loudness in high-z galaxies is confined to the central, dense, and highly ionized region of the galaxies, while the bulk of the galaxies evolves more normally.

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