Local Analogs of Potential Ionizers of the Intergalactic Medium: Compact Star-Forming Galaxies with Intense CIV λ1550 Emission

Abstract

We performed spectroscopic analyses of five local compact star-forming galaxies (CSFGs) with extremely high [OIII]/[OII] (O32) ratios (>20). These targets remarkably share similar properties with high-redshift CIV emitters at z>6: high Hβ equivalent widths (EWs >200), extreme O32 ratios, low metallicities (12+log(O/H) 7.8), low C/O abundances (log(C/O) <-0.6), and high ionization conditions (logU>-2). The UV spectra were acquired using the Hubble Space Telescope's (HST) Cosmic Origins Spectrograph (COS) and Space Telescope Imaging Spectrograph (STIS). We have identified a wealth of rest-frame UV emission lines (CIV, HeII, OIII], CIII]) in the HST spectra. Notably, all our targets show intense CIV emission lines with rest-frame EWs >10, indicative of hard ionizing radiation. The rest-frame UV emission line diagnostics disfavor an AGN and could be consistent with significant shock contributions to the source of ionizing radiation. Four of our targets show high CIV/CIII] ratios (≥1.4), suggestive of strong Lyman-continuum leakage (LyC escape fraction, f esc,LyC>10%) from these sources. This is consistent with their Lyα-inferred LyC escape fractions (f esc,LyC= 9 - 31%). We derive relative C/O abundances from our sources, showing log(C/O) values from -1.12 to -0.61, comparable to those of reionization-era galaxies at z6. The properties of the CSFGs, particularly their intense CIV emission and high O32 ratios, which suggest significant LyC escape fractions, are similar to those of the reionization-era CIV emitters. These similarities reinforce the hypothesis that these CSFGs are the closest analogs of significant contributors to the reionization of the intergalactic medium.