Testing the effect of galactic feedback on the IGM at z ∼ 6 with metal-line absorbers

Testing the effect of galactic feedback on the IGM at z ∼ 6 with metal-line absorbers

We present models of low- and high-ionization metal-line absorbers (O i, C ii, C iv and Mg ii) during the end of the reionization epoch, at z ∼ 6. Using four cosmological hydrodynamical simulations with different feedback schemes (including the Illustris and Sherwood simulations) and two different c...

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Bibliographic Details
Main Authors: Keating, Laura C., Puchwein, Ewald, Haehnelt, Martin G., Bird, Simeon, Bolton, James S.
Format: Article
Published: Oxford University Press 2016
Subjects:
Galaxies High-redshift
Intergalactic medium
Quasars
Absorption lines
Reionization
First stars
Online Access:https://eprints.nottingham.ac.uk/37040/
Description
Summary:We present models of low- and high-ionization metal-line absorbers (O i, C ii, C iv and Mg ii) during the end of the reionization epoch, at z ∼ 6. Using four cosmological hydrodynamical simulations with different feedback schemes (including the Illustris and Sherwood simulations) and two different choices of hydro-solver, we investigate how the overall incidence rate and equivalent width distribution of metal-line absorbers varies with the galactic wind prescription. We find that the O i and C ii absorbers are reasonably insensitive to the feedback scheme. All models, however, struggle to reproduce the observations of C iv and Mg ii, which are probing down to lower overdensities than O i and C ii at z ∼ 6, suggesting that the metals in the simulations are not being transported out into the intergalactic medium efficiently enough. The situation is improved but not resolved if we choose a harder (but still reasonable) and/or (locally) increased UV background at z ∼ 6.

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