Cosmic histories of star formation and reionization: An analysis with a power-law approximation

Abstract

With a simple power-law approximation of high-redshift (3.5) star formation history, i.e., *(z) [(1+z)/4.5]-α, we investigate the reionization of intergalactic medium (IGM) and the consequent Thomson scattering optical depth for cosmic microwave background (CMB) photons. A constraint on the evolution index α is derived from the CMB optical depth measured by the Wilkinson Microwave Anisotropy Probe (WMAP) experiment, which reads α≈2.18Nγ-3.89, where the free parameter Nγ is the number of the escaped ionizing ultraviolet photons per baryon. Moreover, the redshift for full reionization, zf, can also be expressed as a function of α as well as Nγ. By further taking into account the implication of the Gunn-Peterson trough observations to quasars for the full reionization redshift, i.e., 6 zf 7, we obtain 0.3α1.3 and 80Nγ230. For a typical number of 4000 of ionizing photons released per baryon of normal stars, the fraction of these photons escaping from the stars, f esc, can be constrained to within the range of (2.0-5.8)%.