The Reionization History in the Lognormal Model

Abstract

We study the evolution of baryonic gas before the reionization in the lognormal (LN) model of cosmic clustering. We show that the thermal history of the universe around the reionization can roughly be divided into three epochs: 1) cold dark age z>zr, in which baryon gas is neutral, and opaque to Lyα photons; 2) hot dark age zr > z> zgp, in which a predominant part of baryon gas is ionized and hot, but it is still opaque to Lyα photons; 3) bright age z<zgp, in which the universe is ionized highly enough to be transparent to Lyα photons. In the flat cold dark matter cosmological models given by WMAP and COBE, the difference of the two redshifts zr - zgp is found to be as large as 10 with zr 17 and zgp 7. This reionization history naturally yields a high optical depth to the CMB τe 0.12 - 0.19 observed by the TE polarization of the WMAP, and a low redshift zgp of the appearance of the Lyα Gunn-Peterson trough zgp 6 - 8 in QSO's absorption spectra. The reason why the universe stays long in an ionized, yet Lyα opaque, stage is because the first photo-ionization heats the intergalactic gas effectively and has balanced the gravitational clustering a long period of time. Therefore, the result of a high τe and low zgp is a common feature of all the models considered. Besides the cosmological parameters, the only free parameter we used in the calculation is Nion, the mean ionization photons produced by each baryon in collapsed objects. We take it to be 40 - 80 in the calculation.

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