Lyman-alpha emission at the end of reionization: line strengths and profiles from MMT and JWST observations at z~5-6

Abstract

With JWST, it is now possible to use Lyman-Alpha (Lyα) emission from galaxies beyond z>8 to trace neutral hydrogen in the intergalactic medium (IGM) as the Universe became reionized. However, observed Lyα emission is scattered by neutral hydrogen in the IGM and the interstellar and circum-galactic medium, necessitating `baseline' models of Lyα properties in the ionized IGM to disentangle their impacts. In this work, we characterize Lyα properties at the end of reionization, z~5-6, providing a baseline that can be applied to z>6 observations. We targeted GOODS-N with MMT/Binospec, obtaining R~4360 rest-frame UV spectra of 236 galaxies at z~5-6, selected from HST/CANDELS, finding 62 Lyα detections. We use JWST observations from JADES and FRESCO for a subset of our sources to characterize Lyα properties as a function of UV continuum and Hα emission. We present the first statistical measurements of the Lyα FWHM distribution at z~5-6, and produce empirical baseline models of Lyα equivalent width (EWLyα) and escape fraction (fescLyα) conditional on UV magnitude and slope. We find our EWLyα and fescLyα models depend on UV magnitude, and infer 455\% and <628\% of MUV=-19.5 galaxies have EWLyα>25A and fescLyα>0.2, respectively. We find a mean Lyα FWHM of 245km/s and median Lyα velocity offset of 258km/s, both correlating with higher UV luminosity. Our median observed Lyα line profile is broader and has higher velocity offset compared to pre-JWST models based on z~2 lines, which may reflect resonant scattering by residual neutral hydrogen in the IGM at z~5-6 and increasing ISM/CGM densities. Our median line profile predicts higher Lyα transmission in a fully neutral IGM, providing insight into recent z>10 Lyα detections.