JADES: the chemical enrichment pattern of distant galaxies -- $\alpha$ enhancement, silicon depletion, and iron enhancement

TL;DR

This study analyzes gas-phase elemental abundances in high-redshift star-forming galaxies using JWST data, revealing insights into chemical enrichment, dust depletion, and element ratios during early galaxy evolution.

Contribution

It provides the first detailed measurements of multiple elemental abundance ratios in galaxies at z=4-7, highlighting silicon depletion and potential Fe/O enhancement.

Findings

Low [C/O], [Ar/O], [Ne/O] indicating core-collapse supernova yields

Detection of silicon depletion onto dust grains

Supersolar Fe/O ratios in high-sSFR and blue-$eta$ UV galaxies

Abstract

We present gas-phase abundances of carbon (C), $\alpha$-elements (O, Ne, Si, and Ar) and iron (Fe) obtained from stacked spectra of high-$z$ star-forming galaxies with the deep Near Infrared Spectrograph medium-resolution data from the James Webb Space Telescope Advanced Deep Extragalactic Survey. Our 564 sources at $z=4$--7 have a median stellar mass of $\log(M_{*}/M_{\odot})=8.46$ and a median star-formation rate of $\log(\mathrm{SFR}/M_{\odot}\,\mathrm{yr^{-1}})=0.30$, placing them close to the star-formation main sequence. We find that the stacked spectrum of all our 564 sources has relatively low [C/O]$=-0.70$, moderate [Ne/O]$=-0.09$, and low [Ar/O]$=-0.28$ values at a low gas-phase metallicity of $12+\log(\mathrm{O/H})=7.71$ ($Z\sim 0.1~Z_\odot$), suggesting dominant yields of core-collapse supernovae evolved from massive stars. The detection of a weak SiIII] emission line in our stacked spectrum provides a silicon-to-oxygen abundance ratio of [Si/O]$=-0.63$, which is lower than that of stars in the Milky Way disc and lower than expected by chemical evolution models, suggesting silicon depletion onto dust grains. Likewise, this Si/O value is lower than that we newly derive for two individual $z>6$ galaxies (GN-z11 and RXCJ2248) with negligible dust attenuation. By performing spectral stacking in bins of $M_{*}$, SFR, specific SFR (sSFR), and ultra-violet (UV) continuum slope $\beta_{\mathrm{UV}}$, we identify [FeIII] line detections in the high-sSFR bin and the blue-$\beta_{\mathrm{UV}}$ bin, both of which exhibit supersolar Fe/O ratios, while their C/O, Ar/O, and Si/O ratios are comparable to those of the all-sources stack. Our findings support a chemically young gas composition with rapid dust depletion in the general population of high-$z$ star-forming galaxies, while raising the possibility of anomalous, selective Fe/O enhancement at the very early epoch of star formation.