Reionization with star-forming galaxies: insights from the Low-z Lyman Continuum Survey

Abstract

The fraction of ionizing photons escaping from galaxies, fesc, is at the same time a crucial parameter in modelling reionization and a very poorly known quantity, especially at high redshift. Recent observations are starting to constrain the values of fesc in low-z star-forming galaxies, but the validity of this comparison remains to be verified. Applying at high-z the empirical relation between fesc and the UV slope trends derived from the Low-z Lyman Continuum Survey, we use the DELPHI semi-analytical galaxy formation model to estimate the global ionizing emissivity of high-z galaxies, which we use to compute the resulting reionization history. We find that both the global ionizing emissivity and reionization history match the observational constraints. Assuming that the low-z correlations hold during the epoch of reionization, we find that galaxies with -16 MUV -13.5 are the main drivers of reionization. We derive a population-averaged fesc 8\%, 10\%, 20\% at z=4.5, 6, 8.

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