Cosmic Reionization On Computers: Biases and Uncertainties in the Measured Mean Free Path at the End Stage of Reionization
Abstract
Recent observations and analyses of absorption in quasar spectra suggest a rapid drop in the mean free path (MFP) at the late stage of reionization at z6. We use the Cosmic Reionization on Computers simulation to examine potential biases in observed measurements of the MFP at the late stage of reionization, particularly in the presence of a quasar. We analyze three snapshots surrounding the `ankle' point of reionization history, when extended neutral patches of the intergalactic medium disappeared in the simulation box. Specifically, these are z=6.8 (true MFP ≈ 0.4 pMpc), in addition to z=6.1 (true MFP ≈ 2 pMpc) and z=5.4 (true MFP ≈ 6 pMpc). We compare the inferred MFP λ mfp from synthetic spectra fits to the true MFP. We find that the mean Lyman continuum (LyC) profile at z=6.8 changes significantly with quasar lifetime tQ. We attribute this sensitivity to tQ to a combination of extended neutral IGM patches and the prevalence of small-scale dense clumps. Consequently, the inferred MFP can be biased by a factor of few depending on tQ. On the other hand, for the z=6.1 and z=5.4 snapshots, the mean LyC profile shows minimal sensitivity to variation in tQ 1 Myr. The inferred MFP in these two cases is accurate to the 30\% level. Our results highlight how modeling systematics can affect the inferred MFP, particularly in the regime of small true MFP ( 0.5 pMpc). We also discuss the potential of this regime to provide a testing ground for constraining quasar lifetimes from LyC profiles.
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