Characterizing Extreme Emission Line Galaxies II: A Self-Consistent Model of Their Ionizing Spectrum

TL;DR

This study models the ionizing spectra of nearby extreme emission line galaxies, revealing a need for an additional high-energy photon source to explain their emission lines, which informs understanding of early universe galaxies.

Contribution

Introduces a self-consistent model incorporating an additional blackbody component to explain high-ionization emission lines in EELGs, advancing the understanding of their ionizing sources.

Findings

High-energy photons are needed to reproduce observed emission lines.

A blackbody of 80,000 K accounts for the hard ionizing radiation.

Standard stellar populations alone cannot explain the emission lines.

Abstract

Observations of high-redshift galaxies ($z >$ 5) have shown that these galaxies have extreme emission lines with equivalent widths much larger than their local star-forming counterparts. Extreme emission line galaxies (EELGs) in the nearby universe are likely analogues to galaxies during the Epoch of Reionization and provide nearby laboratories to understand the physical processes important to the early universe. We use HST/COS and LBT/MODS spectra to study two nearby EELGs, J104457 and J141851. The FUV spectra indicate that these two galaxies contain stellar populations with ages $< \sim$ 10 Myr and metallicities $\leq$ 0.15 Z$_\odot$. We use photoionization modeling to compare emission lines from models of single-age bursts of star-formation to observed emission lines and find that the single-age bursts do not reproduce high-ionization lines including [O III] or very-high ionization lines like He II or [O IV]. Photoionization modeling using the stellar populations fit from the UV continuum similarly are not capable of reproducing the emission lines from the very-high ionization zone. We add a blackbody to the stellar populations fit from the UV continuum to model the necessary high-energy photons to reproduce the very-high ionization lines of He II and [O IV]. We find that we need a blackbody of 80,000 K and $\sim$60-70% of the luminosity from the young stellar population to reproduce the very-high ionization lines while simultaneously reproducing the low- intermediate-, and high-ionization emission lines. Our self-consistent model of the ionizing spectra of two nearby EELGs indicates the presence of a previously unaccounted-for source of hard ionizing photons in reionization analogues.