Bridging Optical and Far-Infrared Emission-Line Diagrams of Galaxies from Local to the Epoch of Reionization: Characteristic High [O III] 88 μ m/SFR at z > 6

Abstract

We present photoionization modeling of galaxy populations at z0, 2, and > 6 to bridge optical and far-infrared (FIR) emission-line diagrams. We collect galaxies with measurements of optical and/or FIR ([O III] 88 μ m and [C II] 158 μ m) emission line fluxes and plot them on the [O III]λ5007/Hβ--[N II]λ6585/Hα (BPT) and L([O III]88)/SFR--L([C II]158)/SFR diagrams, where SFR is the star-formation rate and L([O III]88) and L([C II]158) are the FIR line luminosities. We aim to explain the galaxy distributions on the two diagrams with photoionization models that employ three nebular parameters: the ionization parameter U, hydrogen density nH, and gaseous metallicity Zgas. Our models successfully reproduce the nebular parameters of local galaxies, and then predict the distributions of the z0, 2, and > 6 galaxies on the diagrams. The predicted distributions illustrate the redshift evolution on all the diagrams; e.g., [O III]/Hβ and [O III]88/[C II]158 ratios continuously decrease from z > 6 to 0. Specifically, the z > 6 galaxies exhibit \!0.5 dex higher U than low-redshift galaxies at a given Zgas and show predicted flat distributions on the BPT diagram at [O III]/Hβ = 0.5-0.8. We find that some of the z > 6 galaxies exhibit high L([O III]88)/SFR ratios. To explain these high ratios, our photoionization models require a low stellar-to-gaseous metallicity ratio or bursty/increasing star-formation history at z > 6. The James Webb Space Telescope will test the predictions and scenarios for the z > 6 galaxies proposed by our photoionization modeling.

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