Reionization of the Inhomogeneous Universe
Abstract
A model of the density distribution in the intergalactic medium, motivated by that found in numerical simulations, is used to demonstrate the effect of a clumpy IGM and discrete sources on the reionization of the universe. In an inhomogeneous universe reionization occurs outside-in, starting in voids and gradually penetrating into overdense regions. Reionization should not be sudden but gradual, with a continuous rise of the photon mean free path over a fair fraction of the Hubble time as the emissivity increases. We show that a hydrogen Gunn-Peterson trough should be present at z 6 unless the emissivity increases with redshift at z>4. However, the epoch of overlap of cosmological regions could have occurred at a higher redshift if sources of low luminosity reionized the IGM; the Gunn-Peterson trough at z 6 would then appear because even the most underdense voids have a large enough neutral fraction in ionization equilibrium to be optically thick to photons. Cosmological regions near the epoch of overlap can produce gaps of transmitted flux only if luminous quasars contributed to the reionization. Despite the clumpiness of the matter distribution, recombinations are not very important during the reionization of hydrogen because the high density gas is not ionized until a late time. We show that the reionization was most likely delayed relative to the hydrogen reionization, but should be completed by z 3, the redshift where observations are available. The reported large optical depth fluctuations of are probably not due to an incomplete reionization, but arise from a combination of density fluctuations and the variations in the intensity of the ionizing background due to luminous QSO's.
Turn this paper into a full lesson
ArcXiv compiles a staged curriculum from this paper: 8-12 lessons across beginner → advanced, synthesised section guides, visuals, flashcards, a quiz, exercises, and on-demand deep dives per section. Grounded in the abstract, never invented.