The Evolution of the Lyman-Alpha Luminosity Function During Reionization
Abstract
The time frame in which hydrogen reionization occurred is highly uncertain, but can be constrained by observations of Lyman-alpha (Ly) emission from distant sources. Neutral hydrogen in the intergalactic medium (IGM) attenuates Ly~photons emitted by galaxies. As reionization progressed the IGM opacity decreased, increasing Ly~visibility. The galaxy Ly~luminosity function (LF) is thus a useful tool to constrain the timeline of reionization. In this work, we model the Ly~LF as a function of redshift, , and average IGM neutral hydrogen fraction, . We combine the Ly~luminosity probability distribution obtained from inhomogeneous reionization simulations with a model for the UV LF to model the Ly~LF. As the neutral fraction increases, the average number density of Ly~emitting galaxies decreases, and are less luminous, though for there is only a small decrease of the Ly~LF. We use our model to infer the IGM neutral fraction at from observed Ly~LFs. We conclude that there is a significant increase in the neutral fraction with increasing redshift: and . We predict trends in the Ly~luminosity density and Schechter parameters as a function of redshift and the neutral fraction. We find that the Ly~luminosity density decreases as the universe becomes more neutral. Furthermore, as the neutral fraction increases, the faint-end slope of the Ly~LF steepens, and the characteristic Ly~luminosity shifts to lower values, concluding that the evolving shape of the Ly~LF -- not just its integral -- is an important tool to study reionization.
Cite
@article{arxiv.2101.01205,
title = {The Evolution of the Lyman-Alpha Luminosity Function During Reionization},
author = {Alexa Morales and Charlotte Mason and Sean Bruton and Max Gronke and Francesco Haardt and Claudia Scarlata},
journal= {arXiv preprint arXiv:2101.01205},
year = {2021}
}
Comments
20 pages, 10 figures, submitted to ApJ