The MOSDEF Survey: [SIII] as a New Probe of Evolving ISM Conditions

Abstract

We present measurements of [SIII]λλ9069,9531 for a sample of z1.5 star-forming galaxies, the first sample with measurements of these lines at z>0.1. We employ the line ratio S32[SIII]λλ9069,9531/[SII]λλ6716,6731 as a novel probe of evolving ISM conditions. Since this ratio includes the low-ionization line [SII], it is crucial that the effects of diffuse ionized gas (DIG) on emission-line ratios be accounted for in z0 integrated galaxy spectra, or else that comparisons be made to samples of local HII regions in which DIG emission is not present. We find that S32 decreases with increasing stellar mass at both z1.5 and z0, but that the dependence is weak suggesting S32 has a very shallow anticorrelation with metallicity, in contrast with O32 that displays a strong metallicity dependence. As a result, S32 only mildly evolves with redshift at fixed stellar mass. The z1.5 sample is systematicallty offset towards lower S32 and higher [SII]/Hα at fixed [OIII]/Hβ relative to z=0 HII regions. By comparing to photoionization model grids, we find that such trends can be explained by a scenario in which the ionizing spectrum is harder at fixed O/H with increasing redshift, but are inconsistent with an increase in ionization parameter at fixed O/H. This analysis demonstrates the advantages of expanding beyond the strongest rest-optical lines for evolutionary studies, and the particular utility of [SIII] for characterizing evolving ISM conditions and stellar compositions. These measurements provide a basis for estimating [SIII] line strengths for high-redshift galaxies, a line that the James Webb Space Telescope will measure out to z~5.5.