JWST Absorption-Line Analysis of UV-Bright Galaxies at z=7.2-10.6: Early Chemical Enrichment Traced by C, O, Mg, Al, Si, and Fe

Abstract

We investigate UV absorption lines tracing cool gas in eight bright (-21.9<MUV<-20.5) galaxies at z=7.2-10.6 using deep JWST/NIRSpec medium-resolution spectra homogeneously selected from archival data. We identify multiple absorption lines of low-ionization species (LIS) in five galaxies, while the remaining three show only one or no significant detections. The average LIS equivalent widths EWLIS indicate weaker absorption lines in compact (re 100 pc) galaxies with high LHβ/LUV and ΣSFR, suggestive of absorption-line suppression due to intense star formation or nuclear activity. We simultaneously fit multiple LIS lines, accounting for both covering fraction Cf and column density N, and find that the five galaxies follow the local Cf-N relation. Through the LIS-line fitting, we derive chemical abundance ratios. The five galaxies have abundance ratios similar to those of damped Lyα (DLA) systems in the [Si/O]-[C/O] and [Fe/Si]-[Al/Si] planes, suggesting that their absorbing gas is similar to that of DLAs. We find that two galaxies at z 7 are already highly Fe-enriched, with [Fe/Si] -0.2, near the solar abundance ratio. While the high Fe enrichment may originate from early Type-Ia supernovae (SNe Ia) or pair-instability supernovae (PISNe), these two galaxies also show [Al/Si]0, with no signature of the strong odd-even effect expected from PISNe, favoring SNe Ia.