Strong [OIII]+Hβ emitters dominated the ionizing budget at z7

Abstract

We quantify the ionizing photon production at z7 using the deepest spectroscopically confirmed sample of strong [OIII]+Hβ emitters (rest-frame EW>740 A) in the Abell 2744 field. Leveraging ultra-deep UNCOVER F410M imaging (5σ29 AB) and gravitational lensing, we probe an order of magnitude deeper than previous JWST WFSS [OIII] studies, reaching a luminosity limit of (L[OIII]+Hβ/erg s-1)=41.3. Our rest-frame optical emission-line selection probes some of the youngest, metal- and dust-poor galaxies, identifying a large population of continuum-faint, ionizing candidates. NIRSpec follow-up of a luminosity-representative subset confirms 72\% of targets, providing detailed characterization of 18 emitters. Balmer decrements reveal negligible dust, while strong-line diagnostics indicate extremely low metallicities (12+(O/H)=6.8--7.7). With typical [OII]/[OIII] ratios of 0.0540.007, we infer an average Lyman continuum escape fraction near the canonical fesc=20\%. Correcting for the spectroscopic confirmation rate, we find that these high-EW emitters represent 5612\% of the total UV-selected population by number density. Integrated to our survey limits, the ionizing budget of these emitters ((N ion/ s-1\,Mpc-3)=50.630.05) accounts for 70\% of the total budget required for reionization at z7. This result is consistent with empirical benchmarks. These results establish [OIII]+Hβ selection as a powerful, dust-insensitive probe, showing that known galaxy populations significantly power reionization.