JADES: The production and escape of ionizing photons from faint Lyman-alpha emitters in the epoch of reionization

We present the properties of 17 faint Lyα emitting galaxies (LAEs) at z>5. 8 from the JWST Advanced Deep Extragalactic Survey (JADES) in the Hubble Ultra Deep Field/GOODS-S. These LAEs span a redshift range z5. 8-8. 0 and a UV magnitude range Mₔₕ-17 to -20. 6, with the Lyα equivalent width (EW) in the range 25-350 Å. The detection of other rest-optical emission lines in the spectra of these LAEs enables the determination of accurate systemic redshifts and Lyα velocity offsets, as well as the physical and chemical composition of their stars and interstellar media. These faint LAEs are consistent with metal-poor systems with high ionization parameters, similar to the general galaxy population at z>6. We measured an average ionizing photon production efficiency, log (ξᵢon/erg^-1 Hz) 25. 57 across our LAEs, which does not evolve strongly with redshift. We report an anti-correlation between the Lyα escape fraction (fₑsc) and the velocity offset from systemic redshift, consistent with model expectations. We further find that the strength and velocity offset of Lyα are neither correlated with galaxy spectroscopic properties nor with ξᵢon. We find a decrease in fₑsc (Lyα) with redshift, indicative of decreasing sizes of ionized bubbles around LAEs at high redshifts. We used a range of galaxy properties to predict Lyman continuum fₑsc for our LAEs, finding that the ionizing photon output into the intergalactic medium remains roughly constant across the observed Lyα EW, showing a mild increase at fainter Mₔₕ and at higher redshifts. We derived correlations between the ionizing photon output from LAEs and Mₔₕ, Lyα EW and redshifts, which can be used to constrain the ionizing photon contribution of LAEs at z > 6 towards cosmic reionization.