Journal
ASTROPHYSICAL JOURNAL
Volume 671, Issue 1, Pages 1-13Publisher
IOP Publishing Ltd
DOI: 10.1086/522566
Keywords
cosmology : theory; galaxies : formation; intergalactic medium; large-scale structure of universe; methods : numerical; radiative transfer; stars : formation
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We present a new hybrid code for large-volume, high-resolution simulations of cosmic reionization, which utilizes an N-body algorithm for dark matter, physically motivated prescriptions for baryons and star formation, and an adaptive ray-tracing algorithm for radiative transfer of ionizing photons. Two test simulations, each with 3 billion particles and 400 million rays in a 50 Mpc h(-1) box, have been run to give initial results. Halos are resolved down to virial temperatures of 10(4) K for the redshift range of interest in order to robustly model star formation and clumping factors. This is essential to correctly account for ionization and recombination processes. We find that the halos and sources are strongly biased with respect to the underlying dark matter, re-enforcing the requirement of large simulation boxes to minimize cosmic variance and to obtain a qualitatively correct picture of reionization. We model the stellar initial mass function (IMF) by following the spatially dependent gas metallicity evolution, and distinguish between the first generation, Population III (PopIII) stars and the second generation, Population II (PopII) stars. The PopIII stars with a top-heavy IMF produce an order of magnitude more ionizing photons at high redshifts z greater than or similar to 10, resulting in a more extended reionization. In our simulations, complete overlap of H II regions occurs at z approximate to 6.5, and the computed mass- and volume-weighted residual H I fractions at 5 less than or similar to z less than or similar to 6: 5 are both in good agreement with high-redshift quasar absorption measurements from the Sloan Digital Sky Survey (SDSS). The values for the Thomson optical depth are consistent within 1 - sigma of the current best-fit value from third-year Wilkinson Microwave Anisotropy Probe (WMAP) results.
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