Inhomogeneous Reionization Regulated by Radiative and Stellar Feedbacks

Details Inhomogeneous Reionization Regulated by Radiative and Stellar Feedbacks Inhomogeneous Reionization Regulated by Radiative and Stellar Feedbacks

1999-07-14

arxiv.org/abs/astro-ph/9907189v1

Astronomy and Astrophysics

Astrophysics

34 pages, emulateapj.sty, LaTeX, 13 figures. MNRAS, submitted

Scientific paper

10.1046/j.1365-8711.2000.03365.x

We study the inhomogeneous reionization in a critical density CDM universe due to stellar sources, including Population III objects. The spatial distribution of the sources is obtained from high resolution numerical N-body simulations. We calculate the source properties taking into account a self-consistent treatment of both radiative (ie ionizing and H2 -photodissociating photons) and stellar (ie SN explosions) feedbacks regulated by massive stars. This allows us to describe the topology of the ionized and dissociated regions at various cosmic epochs and derive the evolution of H, He, and H2 filling factors, soft UV background, cosmic star formation rate and the final fate of ionizing objects. The main results are: (i) galaxies reionize the IGM by z~10 (with some uncertainty related to the gas clumping factor), whereas H2 is completely dissociated already by z~25; (ii) reionization is mostly due to the relatively massive objects which collapse via H line cooling, while objects whose formation relies on H2 cooling alone are insufficient to this aim; (iii) the diffuse soft UV background is the major source of radiative feedback effects for z<15; at higher z direct flux from neighboring objects dominates; (iv) the match of the calculated cosmic star formation history with the one observed at lower redshifts suggests that the conversion efficiency of baryons into stars is ~1%; (v) we find that a very large population of dark objects which failed to form stars is present by z~8. We discuss and compare our results with similar previous studies.

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