Age dependence of Lyα\ escape fraction of Lyα\ emitters and their significant role in cosmic reionization

Abstract

We study the Lyα escape fraction, fescLyα of Lyα emitters (LAEs) identified by Subaru/HSC narrowband imaging at z = 2.2-6.6, using publicly available deep imaging data from HST and JWST. We perform SED fitting for 127 LAEs at 0.4 - 5.0\, μ m to estimate their physical properties robustly, and confirm that two distinct LAE populations exist: young LAEs (< 100 Myr) and old LAEs (> 100 Myr). Young LAEs are characterized by burst-like star formation activity and low dust content, significantly differing from Lyman-break galaxies (LBGs) at the same stellar mass, while old LAEs show similar star formation activity to LBGs, yet with lower dust content and more compact morphology in rest-UV/optical than LBGs. The fescLyα of LAEs is anticorrelated with stellar mass, and this correlation is found to depend on the age of LAEs, such that old LAEs show a weaker anticorrelation than young LAEs, and tend to exhibit higher fescLyα than young LAEs at a given stellar mass. This implies that Lyα photons escape more efficiently from old LAEs, possibly through the low-density channels of HI and dust created by outflows. The average fescLyα of young LAEs remains nearly constant at 40% at z = 2.2-6.6, suggesting that the previously observed evolution of global fescLyα of star-forming galaxies (SFGs) is due to the changes in the LAE fraction among the SFGs. Converting fescLyα to Lyman continuum escape fraction using empirical relations, we demonstrate that LAEs alone can supply the ionizing photons necessary for reionization at z6, causing rapid and late reionization.