Simulating Cosmic Reionization And The Radiation Backgrounds From The Epoch Of Reionization

Large-scale reionization simulations are described which combine the results of cosmological N-body simulations that model the evolving density and velocity fields and identify the galactic halo sources, with ray-tracing radiative transfer calculations which model the nonequilibrium ionization of th...

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Bibliographic Details
Published in:AIP Conference Proceedings,
Main Authors: Shapiro, P. R., Iliev, I. T., Mellema, G., Ahn, K., Mao, Y., Friedrich, M., Datta, K., Park, H., Komatsu, E., Fernandez, E., Koda, J., Bovill, M., Pen, U. L.
Other Authors: Shapiro, Paul R., Mao, Yi, Park, Hyunbae, Koda, Jun, Bovill, Mia
Format: Conference Object
Language:English
Published: 2012
Subjects:
epoch of reionization
first stars
radiation backgrounds
numerical
simulation
large-scale structure of the universe
galaxies:
high-redshift
mesh refinement simulations
south-pole telescope
h-ii regions
intergalactic medium
cosmological reionization
hydrogen reionization
comparison project
eddington tensor
galaxy formation
stellar sources
astronomy & astrophysics
South Pole
South pole
Online Access:http://hdl.handle.net/2152/29338
https://doi.org/10.1063/1.4754363
Description
Summary:Large-scale reionization simulations are described which combine the results of cosmological N-body simulations that model the evolving density and velocity fields and identify the galactic halo sources, with ray-tracing radiative transfer calculations which model the nonequilibrium ionization of the intergalactic medium. These simulations have been used to predict some of the signature effects of reionization on cosmic radiation backgrounds, including the CMB, near-IR, and redshifted 21cm backgrounds. We summarize some of our recent progress in this work, and address the question of whether observations of such signature effects can be used to distinguish the relative contributions of galaxies of different masses to reionization. Astronomy

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