Fe Abundances of Early Galaxies at z=9-12 Derived with Deep JWST Spectra
Abstract
We derive Fe-abundance ratios of 7 galaxies at z=9-12 with -22<MUV<-19 whose JWST/NIRSpec spectra achieve very high signal-to-noise ratios, SNR=60-320, at the rest-frame UV wavelength. We fit stellar population synthesis model spectra to these JWST spectra, masking out nebular emission lines, and obtain Fe-abundance ratios of [Fe/H]=-1-0 dex for 5 galaxies and upper limits of [Fe/H]-2-0 dex for 2 galaxies. We compare these [Fe/H] values with the oxygen abundances of these galaxies (7.4<12+(O/H)<8.4) in the same manner as previous studies of z2-6 galaxies, and derive oxygen-to-iron abundance ratios [O/Fe]. We find that 2 out of 7 galaxies, GS-z11-0 and GN-z11, show Fe enhancements relative to O ([O/Fe]<0 dex), especially GS-z11-0 (z=11.12) with a Fe enhancement ([O/Fe]=-0.68-0.55+0.37 dex) beyond the solar-abundance ratio at 2σ. Because, unlike GS-z11-0, GN-z11 (z=10.60) may be an AGN, we constrain [O/Fe] via FeII emission under the assumption of AGN and confirm that the Fe enhancement is consistent even in the case of AGN. While [O/Fe] values of most galaxies are comparable to those of core-collapse supernovae (CCSNe) yields, the Fe enhancements of GS-z11-0 and GN-z11 are puzzling. We develop chemical evolution models, and find that the Fe enhancements in GS-z11-0 and GN-z11 can be explained by 1) pair-instability supernovae/bright hypernovae with little contribution of CCSNe or 2) Type-Ia supernovae with short delay time (30-50 Myr) with a top-light initial mass function.
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