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Title:
Radiative Transfer in a Clumpy Universe. III. The Nature of Cosmological Ionizing Sources
Authors:
Madau, Piero; Haardt, Francesco; Rees, Martin J.
Publication:
The Astrophysical Journal, Volume 514, Issue 2, pp. 648-659. (ApJ Homepage)
Publication Date:
04/1999
Origin:
APJ
ApJ Keywords:
COSMOLOGY: DIFFUSE RADIATION, GALAXIES: INTERGALACTIC MEDIUM, RADIATIVE TRANSFER
DOI:
10.1086/306975
Bibliographic Code:
1999ApJ...514..648M

Abstract

The history of the transition from a neutral intergalactic medium (IGM) to one that is almost fully ionized can reveal the character of cosmological ionizing sources. We study the evolution of the volume filling factors of H II and He III regions in a clumpy IGM and discuss the implications for rival reionization scenarios of the rapid decline observed at z>~3 in the space density of optical and radio-loud quasars and of the large population of star-forming galaxies recently discovered at the same epoch. The hydrogen component in a highly inhomogeneous universe is completely reionized when the number of photons emitted above 1 ryd in one recombination time equals the mean number of hydrogen atoms. If stellar sources are responsible for keeping the IGM ionized at z=5, the rate of star formation at this epoch must be comparable or greater than the one inferred from optical observations of galaxies at z~3 and the mean metallicity per baryon in the universe >~0.002 solar. An early generation of stars in dark matter halos with circular velocities, v_circ~50 km s^-1, possibly one of the main sources of UV photons at high z, could be detectable with the Next Generation Space Telescope. Models in which the quasar emissivity declines rapidly at z>~3 predict a late He II reionization epoch, a feature that could explain the recent detection of patchy He II Lyalpha at z=2.9 by Reimers et al. and the abrupt change observed by Songaila at about the same epoch of the Si IV /C IV ratio, but appear unable to provide the required number of hydrogen-ionizing photons at z~5.

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