On the minimum mass of reionization sources

Abstract

By means of carefully calibrated semi-analytical reionization models, we estimate the minimum mass of star-forming haloes required to match the current data. Models which do not include haloes of total mass M < 109 Msun fail at reproducing the Gunn-Peterson and electron scattering optical depths simultaneously, as they contribute too few (many) photons at high (low, z ≈ 6) redshift. Marginally acceptable solutions require haloes with M ≈ 5 × 107 Msun at z ≈ 10, corresponding to virial temperatures ( 104K) for which cooling can be ensured by atomic transitions. However, a much better match to the data is obtained if minihaloes (M 106 Msun) are included in the analysis. We have critically examined the assumptions made in our model and conclude that reionization in the large-galaxies-only scenario can remain viable only if metal-free stars and/or some other exotic sources at z > 6 are included.