far-ultraviolet continuum slope as a Lyman Continuum escape estimator at high redshift.

Most of the hydrogen in the intergalactic medium (IGM) was rapidly ionized at high redshifts. While observations have established that reionization occurred, observational constraints on the high-redshift ionizing emissivity remain elusive. Here, we present a new analysis of the Low-redshift Lyman Continuum Survey (LzLCS) and literature observations, a combined sample of 89 star-forming galaxies at redshifts near 0.3 with Hubble Space Telescope observations of their ionizing continua (or Lyman Continuum, LyC). We find a strong (6σ significant) inverse correlation between the continuum slope at 1550 Å (defined as F |$_\lambda \propto \lambda ^{\beta ^{1550}_{\rm obs}}$|⁠) and both the LyC escape fraction (f _{esc, LyC}) and f _{esc, LyC} times the ionizing photon production efficiency (ξ_ion). On average, galaxies with redder continuum slopes have smaller f _{esc, LyC} than galaxies with bluer slopes mainly due to higher dust attenuation. More than 5 per cent (20 per cent) of the LyC emission escapes galaxies with |$\beta _{\rm obs}^{1550}$|  <−2.1 (−2.6). We find strong correlations between |$\beta _{\rm obs}^{1550}$| and the [O  iii ]/[O  ii ] flux ratio (at 7.5σ significance), galaxy stellar mass (at 5.9σ), the gas-phase metallicity (at 4.6σ), and the observed far-ultraviolet absolute magnitude (at 3.4σ). Using previous observations of |$\beta _{\rm obs}^{1550}$| at high redshift, we estimate the evolution of f _{esc, LyC} with both redshift and galaxy magnitude. The LzLCS observations suggest that fainter and lower mass galaxies dominate the ionizing photon budget at higher redshift, possibly due to their rapidly evolving metal and dust content. Finally, we use our correlation between |$\beta _{\rm obs}^{1550}$| and f _{esc, LyC} × ξ_ion to predict the ionizing emissivity of galaxies during the epoch of reionization. Our estimated emissivities match IGM observations, and suggest that star-forming galaxies emit sufficient LyC photons into the IGM to exceed recombinations near redshifts of 7–8. [ABSTRACT FROM AUTHOR]