The LyA-LyC Connection: Evidence for an Enhanced Contribution of UV-faint Galaxies to Cosmic Reionization

Abstract

The escape of ionizing Lyman Continuum (LyC) photons requires the existence of low-NHI sightlines, which also promote escape of Lyman-Alpha (Lya). We use a suite of 2500 Lya Monte-Carlo radiative transfer simulations through models of dusty, clumpy interstellar (`multiphase') media from Gronke & Dijkstra (2016), and compare the escape fractions of Lya [fesc(Lya)] and LyC radiation [fesc(LyC)]. We find that fesc(LyC) and fesc(Lya) are correlated: galaxies with a low fesc(Lya) consistently have a low fesc(LyC), while galaxies with a high fesc(Lya) exhibit a large dispersion in fesc(LyC). We argue that there is increasing observational evidence that Lya escapes more easily from UV-faint galaxies. The correlation between fesc(LyC) and fesc(Lya) then implies that UV-faint galaxies contribute more to the ionizing background than implied by the faint-end slope of the UV-luminosity function. In multiphase gases, the ionizing escape fraction is most strongly affected by the cloud covering factor, fcl, which implies that fesc(LyC) is closely connected to the observed Lya spectral line shape. Specifically, LyC emitting galaxies typically having narrower, more symmetric line profiles. This prediction is qualitatively similar to that for `shell models'.