The MOSDEF-LRIS Survey: The Interplay Between Massive Stars and Ionized Gas in High-Redshift Star-Forming Galaxies

Abstract

We present a joint analysis of rest-UV and rest-optical spectra obtained using Keck/LRIS and Keck/MOSFIRE for a sample of 62 star-forming galaxies at z2.3. We divide our sample into 2 bins based on their location in the [OIII]/Hb vs. [NII]/Ha BPT diagram, and perform the first differential study of the rest-UV properties of massive ionizing stars as a function of rest-optical emission-line ratios. Fitting BPASS stellar population synthesis models, including nebular continuum emission, to our rest-UV spectra, we find that high-redshift galaxies offset towards higher [OIII]/Hb and [NII]/Ha have younger ages (log(Age/yr)=7.20+0.57-0.20) and lower stellar metallicities (Z*=0.0010+0.0011-0.0003) resulting in a harder ionizing spectrum, compared to the galaxies in our sample that lie on the local BPT star-forming sequence (log(Age/yr)=8.57+0.88-0.84, Z*=0.00190.0006). Additionally, we find that the offset galaxies have an ionization parameter of log(U)=-3.04+0.06-0.11 and nebular metallicity of 12+log(O/H)=8.40+0.06-0.07, and the non-offset galaxies have log(U)=-3.110.08 and 12+log(O/H)=8.30+0.05-0.06. The stellar and nebular metallicities derived for our sample imply that the galaxies offset from the local BPT relation are more alpha-enhanced (7.28+2.52-2.82 O/Fe) compared to those consistent with the local sequence (3.04+0.95-0.54 O/Fe). However, even galaxies that are entirely consistent with the local nebular excitation sequence appear to be alpha-enhanced -- in contrast with typical local systems. Such differences must be considered when estimating gas-phase O/H at high redshift based on strong emission-line ratios. Specifically, a similarity in the location of high-redshift and local galaxies in the BPT diagram may not be indicative of a similarity in their physical properties.