A short mean free path at z=6 favors late and rapid reionization by faint galaxies

Abstract

Recent measurements of the ionizing photon mean free path (λ912 mfp) at 5 < z < 6 suggest that the IGM was rapidly evolving at those times. We use radiative transfer simulations to explore the implications for reionization, with a focus on the short value of λ912 mfp = 3.57+3.09-2.14 cMpc/h at z=6. We introduce a model for sub-resolution ionizing photon sinks based on radiative hydrodynamics simulations of small-scale IGM clumping. We argue that the rapid evolution in λ912 mfp at z=5-6, together with constraints on the metagalactic ionizing background, favors a late reionization process in which the neutral fraction evolved rapidly in the latter half. We also argue that the short λ912 mfp(z=6) points to faint galaxies as the primary drivers of reionizaton. Our preferred model, with λ912 mfp(z=6) = 6.5 Mpc/h, has a midpoint of z= 7.1 and ends at z= 5.1. It requires 3 ionizing photons per H atom to complete reionization and a LyC photon production efficiency of (f eff esc ion/[erg-1 Hz]) = 24.8 at z>6. Recovering λ912 mfp(z=6) as low as the measured central value may require an increase in IGM clumpiness beyond predictions from simulations, with a commensurate increase in the photon budget.