The mean free path of ionizing photons at 5 < z < 6: evidence for rapid evolution near reionization

Abstract

The mean free path of ionizing photons, λ mfp, is a key factor in the photoionization of the intergalactic medium (IGM). At z 5, however, λ mfp may be short enough that measurements towards QSOs are biased by the QSO proximity effect. We present new direct measurements of λ mfp that address this bias and extend up to z 6 for the first time. Our measurements at z 5 are based on data from the Giant Gemini GMOS survey and new Keck LRIS observations of low-luminosity QSOs. At z 6 we use QSO spectra from Keck ESI and VLT X-Shooter. We measure λ mfp = 9.09+1.62-1.28 proper Mpc and 0.75+0.65-0.45 proper Mpc (68% confidence) at z = 5.1 and 6.0, respectively. The results at z = 5.1 are consistent with existing measurements, suggesting that bias from the proximity effect is minor at this redshift. At z = 6.0, however, we find that neglecting the proximity effect biases the result high by a factor of two or more. Our measurement at z = 6.0 falls well below extrapolations from lower redshifts, indicating rapid evolution in λ mfp over 5 < z < 6. This evolution disfavors models in which reionization ended early enough that the IGM had time to fully relax hydrodynamically by z = 6, but is qualitatively consistent with models wherein reionization completed at z = 6 or even significantly later. Our mean free path results are most consistent with late reionization models wherein the IGM is still 20% neutral at z=6, although our measurement at z = 6.0 is even lower than these models prefer.