The Giant Gemini GMOS survey of z>4.4 quasars - I. Measuring the mean free path across cosmic time

Abstract

We have obtained spectra of 163 quasars at zem>4.4 with the Gemini Multi Object Spectrometers on the Gemini North and South telescopes, the largest publicly available sample of high-quality, low-resolution spectra at these redshifts. From this homogeneous data set, we generated stacked quasar spectra in three redshift intervals at z 5. We have modelled the flux below the rest-frame Lyman limit (λr<912) to assess the mean free path λmfp912 of the intergalactic medium to HI-ionizing radiation. At mean redshifts zq=4.56, 4.86 and 5.16, we measure λmfp912=(22.2 2.3, 15.1 1.8, 10.3 1.6)h70-1 proper Mpc with uncertainties dominated by sample variance. Combining our results with λmfp912 measurements from lower redshifts, the data are well modelled by a simple power-law λmfp912=A[(1+z)/5]η with A=(37 2)h70-1 Mpc and η = -5.4 0.4 between z=2.3 and z=5.5. This rapid evolution requires a physical mechanism -- beyond cosmological expansion -- which reduces the cosmic effective Lyman limit opacity. We speculate that the majority of HI Lyman limit opacity manifests in gas outside galactic dark matter haloes, tracing large-scale structures (e.g. filaments) whose average density (and consequently neutral fraction) decreases with cosmic time. Our measurements of the strongly redshift-dependent mean free path shortly after the completion of HI reionization serve as a valuable boundary condition for numerical models thereof. Having measured λmfp912≈ 10 Mpc at z=5.2, we confirm that the intergalactic medium is highly ionized by that epoch and that the redshift evolution of the mean free path does not show a break that would indicate a recent end to HI reionization.