The Great Escape: Understanding the Connection Between Lyα Emission and LyC Escape in Simulated JWST Analogues

Abstract

Constraining the escape fraction of Lyman Continuum (LyC) photons from high-redshift galaxies is crucial to understanding reionization. Recent observations have demonstrated that various characteristics of the Lyα emission line correlate with the inferred LyC escape fraction (f esc LyC) of low-redshift galaxies. Using a data-set of 9,600 mock Lyα spectra of star-forming galaxies at 4.64 ≤ z ≤ 6 from the SPHINX20 cosmological radiation hydrodynamical simulation, we study the escape of Lyα and LyC photons. We find that our mock Lyα observations are representative of high-redshift observations and that typical observational methods tend to over-predict the Lyα escape fraction (f esc Lyα) by as much as two dex. We investigate the correlations between f esc LyC and f esc Lyα, Lyα equivalent width (Wλ( Lyα)), peak separation (v sep), central escape fraction (f cen), and red peak asymmetry (Af red). We find that f esc Lyα and f cen are good diagnostics for LyC leakage, selecting for galaxies with lower neutral gas densities and less UV attenuation that have recently experienced supernova feedback. In contrast, Wλ( Lyα) and v sep are found to be necessary but insufficient diagnostics, while Af red carries little information. Finally, we use stacks of Lyα, Hα, and F150W mock surface brightness profiles to find that galaxies with high f esc LyC have less extended Lyα and F150W but larger Hα haloes than their non-leaking counterparts. This confirms that Lyα spectral profiles and surface brightness morphology can be used to better understand the escape of LyC photons from galaxies during the Epoch of Reionization.