Friday, September 28, 2012

1209.6069 (B. F. Griffen et al.)

The inhomogenous reionization of the inter-galactic medium by metal-poor globular clusters    [PDF]

B. F. Griffen, M. J. Drinkwater, Ilian T. Iliev, P. A. Thomas, Garrelt Mellema
We present detailed radiative transfer simulations of the reionization history of the Milky Way by metal-poor globular clusters. We identify potential metal-poor globular cluster candidates within the Aquarius simulation using dark matter halo velocity dispersions. We calculate the local ionization fields via a photon-conserving, three dimensional non-equilibrium chemistry code and allow the model to propagate through to the present day. The key feature of the model is that globular cluster formation is suppressed if the local gas is ionized. We find that our spatial treatment of the ionization field leads to drastically different numbers and spatial distributions when compared to models where globular cluster formation is simply truncated at a given redshift. We find that it is possible for metal-poor globular clusters to have formed via the dark matter halo formation channel as our secondary model (delayed formation) combined with truncation at z = 10 produces radial distributions statistically consistent with that of the Milky Way metal-poor globular clusters. If globular clusters do indeed form within high-redshift dark matter halos, if only in-part, their contributions to the reionization of the local (i.e. 2^3 h^-3 Mpc^3 centred on the host galaxy) volume and mass by redshift 10 could be as high as 98% and 90%, respectively. In our photon poorest model, this contribution drops to 60% and 50%. The surviving clusters in all models have a narrow average age range (mean = 13.34 Gyr, \sigma = 0.04 Gyr) consistent with current ages estimates of the Milky Way metal-poor globular clusters. We also test a simple dynamical destruction model and estimate that ~60% of all metal-poor globular clusters formed at high redshift have since been destroyed via tidal interactions with the host galaxy.
View original: http://arxiv.org/abs/1209.6069

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