Lyα Leaks in the Absorption Spectra of High Redshift QSOs

Abstract

Spectra of high redshift QSOs show deep Gunn-Peterson absorptions on the blue sides of the emissions lines. They can be decomposed into components called leaks, defined to be emissive regions in complementary to otherwise zero-fluxed absorption gaps. Just like absorption forests at low redshifts, leaks are both easy to find in observations and containing rich sets of statistical properties that can be used to study the early evolution of the IGM. Among all properties of a leak profile, we investigate its equivalent width in this paper, since it is weakly affected by instrumental resolution and noise. Using 10 Keck QSO spectra at z6, we have measured the number density distribution function n(W,z), defined to be the number of leaks per equivalent width W and per redshift z, in the redshift range 5.4 - 6.0. These new observational statistics, in both the differential and cumulative forms, fit well to hydro numerical simulations of uniform ionizing background in the cosmology. In this model, Ly α leaks are mainly due to low density voids. It supports the early studies that the IGM at z6 would still be in a highly ionized state with neutral hydrogen fraction 10-4. Measurements of n(W,z) at z>6 would be effective to probe the reionization of the IGM.