The Impact of Neutral Intergalactic Gas on Lyman-α Intensity Mapping During Reionization

Abstract

We present the first simulations of the high-redshift Lyα intensity field that account for scattering in the intergalactic medium (IGM). Using a 3D Monte Carlo radiative transfer code, we find that Lyα scattering smooths spatial fluctuations in the Lyα intensity on small scales and that the spatial dependence of this smoothing depends strongly on the mean neutral fraction of the IGM. Our simulations find a strong effect of reionization on k=0.1-1~ Mpc-1, with P Lyα k-1.75 for x HI = 0.63 and P Lyα k-2.2 for x HI = 0.86 in contrast to P Lyα k-1.5 after reionization. At wavenumbers of k>1 ~ Mpc-1, we find that the signal is sensitive to the emergent Lyα line profiles from galaxies. We also demonstrate that the cross-correlation between a Lyα intensity map and a future galaxy redshift survey could be detected on large scales by an instrument similar to SPHEREx, and over a wide range of scales by a hypothetical intensity mapping instrument in the vein of CDIM.