The JWST Spectroscopic Properties of Galaxies at z=9-14

Abstract

We characterize the JWST spectra of 61 galaxies at z=9-14, including 30 newly-confirmed galaxies. We directly compare the z>9 spectroscopic properties against 401 galaxies at 6<z<9, with the goal of identifying evolution in the star formation histories and ISM. We measure rest-UV emission line properties and UV continuum slopes, while also investigating the rest-optical emission lines for the subset of galaxies at 9.0<z<9.6. With these spectra, we constrain the stellar masses, specific star formation rates, dust attenuation, and the average metallicity and abundance pattern of z>9 galaxies. Our dataset indicates that the emission lines undergo a marked change at z>9, with extremely large CIII], Hβ, and Hγ EWs becoming 2-3× more common at z>9 relative to 6<z<9. Using the spectra, we infer the distribution of SFRs on short (SFR 3Myr) and medium (SFR 3-50Myr) timescales, finding that rapid SFR upturns (large SFR 3Myr/SFR 3-50Myr ratios) are significantly more likely among z>9 galaxies. These results may reflect a larger dispersion in UV luminosity at fixed halo mass and larger baryon accretion rates at z>9, although other physical effects may also contribute. We suggest that the shift in star formation conditions explains the prevalence of extreme nebular spectra that have been detected at z>9, with hard ionizing sources and nitrogen-enhancements becoming more typical at the highest redshifts. Finally, we identify five z>9 spectroscopically confirmed galaxies with red UV colors (β-1.5), either revealing a small population with moderate dust attenuation (τV=0.23-0.35) or very high density nebular-dominated galaxies with hot stellar populations.