We use a semi-analytical approach to simulate absorption spectra of QSOs at high redshifts with the aim of constraining the cosmic reionization history. We consider two physically motivated and detailed reionization histories: (i) an Early Reionization Model (ERM) in which the intergalactic medium is reionized by PopIII stars at z 14, and (ii) a more standard Late Reionization Model (LRM) in which overlapping, induced by QSOs and normal galaxies, occurs at z 6. From the analysis of current Ly forest data at z 6, however, clear differences start to emerge which are best quantified by the dark gap and peak width distributions. We find that 35 (zero) per cent of the lines of sight within 5. 750 Angstrom in the rest frame of the QSO if reionization is not (is) complete at z 6. Similarly, the ERM predicts peaks of width 1 Angstrom in 40 per cent of the lines of sight in the redshift range 6. 0-6. 6; in the same range, LRM predicts no peaks of width >0. 8 Angstrom. We conclude that the dark gap and peak width statistics represent superb probes of cosmic reionization if about ten QSOs can be found at z > 6. We finally discuss strengths and limitations of our method.
Gallerani et al. (Thu,) studied this question.