English

The EAGLE simulations: atomic hydrogen associated with galaxies

Astrophysics of Galaxies 2016-12-07 v2

Abstract

We examine the properties of atomic hydrogen (HI) associated with galaxies in the EAGLE simulations of galaxy formation. EAGLE's feedback parameters were calibrated to reproduce the stellar mass function and galaxy sizes at z=0.1z=0.1, and we assess whether this calibration also yields realistic HI properties. We estimate the self-shielding density with a fitting function calibrated using radiation transport simulations, and correct for molecular hydrogen with empirical or theoretical relations. The `standard-resolution' simulations systematically underestimate HI column densities, leading to an HI deficiency in low-mass (M<1010MM_\star < 10^{10}M_\odot) galaxies and poor reproduction of the observed HI mass function. These shortcomings are largely absent from EAGLE simulations featuring a factor of 8 (2) better mass (spatial) resolution, within which the HI mass of galaxies evolves more mildly from z=1z=1 to 00 than in the standard-resolution simulations. The largest-volume simulation reproduces the observed clustering of HI systems, and its dependence on HI-richness. At fixed MM_\star, galaxies acquire more HI in simulations with stronger feedback, as they become associated with more massive haloes and higher infall rates. They acquire less HI in simulations with a greater star formation efficiency, since the star formation and feedback necessary to balance the infall rate is produced by smaller gas reservoirs. The simulations indicate that the HI of present-day galaxies was acquired primarily by the smooth accretion of ionized, intergalactic gas at z1z\simeq1, which later self-shields, and that only a small fraction is contributed by the reincorporation of gas previously heated strongly by feedback. HI reservoirs are highly dynamic: over 4040 percent of HI associated with z=0.1z=0.1 galaxies is converted to stars or ejected by z=0z=0.

Keywords

Cite

@article{arxiv.1604.06803,
  title  = {The EAGLE simulations: atomic hydrogen associated with galaxies},
  author = {Robert A. Crain and Yannick M. Bahe and Claudia del P. Lagos and Alireza Rahmati and Joop Schaye and Ian G. McCarthy and Antonino Marasco and Richard G. Bower and Matthieu Schaller and Tom Theuns and Thijs van der Hulst},
  journal= {arXiv preprint arXiv:1604.06803},
  year   = {2016}
}

Comments

Accepted for publication by MNRAS. v2: minor changes from submitted manuscript

R2 v1 2026-06-22T13:38:59.301Z