Abstract
Previous studies have noted difficulties in modeling the highest opacities of
the $z > 5.5$ Ly$\alpha$ forest, epitomized by the extreme Ly$\alpha$ trough
observed towards quasar ULAS J0148+0600. One possibility is that the most
opaque regions at these redshifts contain significant amounts of neutral
hydrogen. This explanation, which abandons the common assumption that
reionization ended before $z = 6$, also reconciles evidence from independent
observations of a significantly neutral Universe at $z = 7.5$. Here we explore
a model in which the neutral fraction is still $\approx$ $10%$ at $z = 5.5$. We
confirm that this model can account for the observed scatter in Ly$\alpha$
forest opacities, as well as the observed Ly$\beta$ transmission in the J0148
trough. We contrast the model with a competing "earlier" reionization scenario
characterized by a short mean free path and large fluctuations in the
post-reionization ionizing background. We consider Ly$\alpha$ and Ly$\beta$
effective optical depths, their correlations, trough size distributions, dark
pixel fractions, the IGM thermal history, and spatial distributions of
Lyman-$\alpha$ emitters around forest sight lines. We find that the models are
broadly similar in almost all of these statistics, suggesting that it may be
difficult to distinguish between them definitively. We argue that improved
constraints on the mean free path and the thermal history at $z > 5$ could go a
long way towards diagnosing the origin of the $z > 5.5$ opacity fluctuations.
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