The MOSDEF Survey: Direct-Method Metallicities and ISM Conditions at z1.5-3.5

Abstract

We present detections of [OIII]λ4363 and direct-method metallicities for star-forming galaxies at z=1.7-3.6. We combine new measurements from the MOSFIRE Deep Evolution Field (MOSDEF) survey with literature sources to construct a sample of 18 galaxies with direct-method metallicities at z>1, spanning 7.5<12+log(O/H)<8.2 and log(M*/M)=7-10. We find that strong-line calibrations based on local analogs of high-redshift galaxies reliably reproduce the metallicity of the z>1 sample on average. We construct the first mass-metallicity relation at z>1 based purely on direct-method O/H, finding a slope that is consistent with strong-line results. Direct-method O/H evolves by 0.1 dex at fixed M* and SFR from z0-2.2. We employ photoionization models to constrain the ionization parameter and ionizing spectrum in the high-redshift sample. Stellar models with super-solar O/Fe and binary evolution of massive stars are required to reproduce the observed strong-line ratios. We find that the z>1 sample falls on the z0 relation between ionization parameter and O/H, suggesting no evolution of this relation from z0 to z2. These results suggest that the offset of the strong-line ratios of this sample from local excitation sequences is driven primarily by a harder ionizing spectrum at fixed nebular metallicity compared to what is typical at z0, naturally explained by super-solar O/Fe at high redshift caused by rapid formation timescales. Given the extreme nature of our z>1 sample, the implications for representative z2 galaxy samples at 1010 M are unclear, but similarities to z>6 galaxies suggest that these conclusions can be extended to galaxies in the epoch of reionization.