Searching for the reionization sources
Abstract
Using a reionization model simultaneously accounting for a number of experimental data sets, we investigate the nature and properties of reionization sources. Such model predicts that hydrogen reionization starts at z ≈ 15, is initially driven by metal-free (PopIII) stars, and is 90% complete by z ≈ 8. We find that a fraction fγ >80% of the ionizing power at z > 7 comes from haloes of mass M<109 Msun predominantly harbouring PopIII stars; a turnover to a PopII-dominated phase occurs shortly after, with this population, residing in M>109 Msun haloes, yielding fγ ≈ 60% at z=6. Using Lyman-break broadband dropout techniques, J-band detection of sources contributing to 50% (90%) of the ionizing power at z 7.5 requires to reach a magnitude J110,AB = 31.2 (31.7), where about 15 (30) (PopIII) sources/arcmin2 are predicted. We conclude that z>7 sources tentatively identified in broadband surveys are relatively massive (M ≈ 109 Msun) and rare objects which are only marginally (≈ 1%) adding to the reionization photon budget.
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