Efficient Ionizers with Low H$\boldsymbolβ$+[OIII] Equivalent Widths: JADES Spectroscopy of a Peculiar High-z Population (2412.04542v1)

Abstract: Early JWST photometric studies discovered a population of UV faint ($\rm <L^{*}_{UV}$) $z \sim 6.5-8$ Lyman break galaxies with spectral energy distributions implying young ages ($\sim10$ Myr) yet relatively weak H$\beta$+[OIII] equivalent widths ($\rm EW_{H\beta+[OIII]} \approx 400$\r{A}). These galaxies seemingly contradict the implicit understanding that young star-forming galaxies are ubiquitously strong H$\beta$+[OIII] emitters, i.e., extreme emission line galaxies (EW $\rm \gtrsim 750$\r{A}). Low metallicities, high Lyman continuum escape fractions, and rapidly declining star-formation histories have been proposed as primary drivers behind low H$\beta$+[OIII] equivalent widths, but the blend of H$\beta$+[OIII] in photometric studies makes proving one of these scenarios difficult. We aim to characterize this peculiar population with deep spectroscopy from the JWST Advanced Deep Extragalactic Survey (JADES). We find that a significant subset of these galaxies at $z\gtrsim2$ with modest H$\beta$+[OIII] equivalent widths ($\rm \approx 300-600$\r{A}) have high ionization efficiencies ($\rm \log \xi_{ion} \gtrsim 25.5~[Hz~erg^{-1}]$). Suppressed [OIII] EW values yet elevated H$\alpha$ and H$\beta$ EW values imply that the level of chemical enrichment is the primary culprit, supported by spectroscopic measurements of metallicities below 12+log(O/H)$\rm \approx 7.70~(10\%Z_{\odot})$. We demonstrate that integrated H$\beta$+[OIII] selections (e.g., H$\beta$+[OIII] EW $> 700$\r{A}) exclude the most metal-poor efficient ionizers and favor 1) more chemically enriched systems with comparable extreme radiation fields and 2) older starbursting systems. In contrast, metallicity degeneracies are reduced in H$\alpha$ space, enabling the identification of these metal-poor efficient ionizers by their specific star-formation rate.