Emission-line Diagnostics at z 2: A Probe of the Ionizing Spectrum and α Enhancement Beyond Cosmic Noon

Abstract

We analyze several key rest-optical emission-line ratios in a sample of 828 galaxies as well as composite spectra from JADES DR3 in the range 1.4 < z < 7. These emission-line ratios include: [O III]λ5008/Hβ, [N II]λ 6585/Hα, [S II]λλ 6718,6733/Hα, [O I]λ 6302/Hα, O32, R23, Ne3O2, and RO2Ne3. We find evidence for a harder ionizing spectrum at z 3.5 compared to z 2 at fixed gas-phase metallicity, resulting in a pronounced shift in the star-forming galaxy locus on the [N II]/Hα BPT diagram and the O32 vs. R23 diagram. At z 3.5, star-forming galaxies occupy a common locus, indicating that ISM ionizing conditions at fixed gas-phase metallicity do not evolve strongly at these early cosmic times. There is a connection between ISM ionizing conditions and the chemical abundance patterns (i.e., α/Fe) in massive stars providing the ionizing radiation field. Therefore, the lack of evolution in ISM ionizing conditions at z 3.5, followed by evolution towards a softer ionizing spectrum at fixed nebular metallicity as cosmic time proceeds to z 2 and lower redshift mirrors the chemical abundance patterns in Milky Way stars as a function of iron abundance. Our results highlight the diagnostic power of emission-line diagrams in the era of JWST to further our understanding of the ISM conditions into the Epoch of Reionization.