The connection between high-redshift galaxies and Lyman α transmission in the Sherwood-Relics simulations of patchy reionisation
Abstract
Recent work has suggested that, during reionisation, spatial variations in the ionising radiation field should produce enhanced Ly α forest transmission at distances of tens of comoving Mpc from high-redshift galaxies. We demonstrate that the Sherwood-Relics suite of hybrid radiation-hydrodynamical simulations are qualitatively consistent with this interpretation. The shape of the galaxy--Ly α transmission cross-correlation is sensitive to both the mass of the haloes hosting the galaxies and the volume averaged fraction of neutral hydrogen in the IGM, x HI. The reported excess Ly α forest transmission on scales r ~ 10 cMpc at z ≈ 5.2 -- as measured using C IV absorbers as proxies for high-redshift galaxies -- is quantitatively reproduced by Sherwood-Relics at z = 6 if we assume the galaxies that produce ionising photons are hosted in haloes with mass M h≥ 1010~h-1\, M. However, this redshift mismatch is equivalent to requiring x HI 0.1 at z 5.2, which is inconsistent with the observed Ly α forest effective optical depth distribution. We suggest this tension may be partly resolved if the minimum C IV absorber host halo mass at z > 5 is larger than M h=1010~h-1\, M. After reionisation completes, relic IGM temperature fluctuations will continue to influence the shape of the cross-correlation on scales of a few comoving Mpc at 4 ≤ z ≤ 5. Constraining the redshift evolution of the cross-correlation over this period may therefore provide further insight into the timing of reionisation.
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