The Physical Nature of the Most Metal-Poor Damped Lyman Alpha Systems

Abstract

Utilizing the high-resolution, large-scale LAOZI cosmological simulations we investigate the nature of the metal-poor ( [Z/H]<-2) damped Lyman alpha systems (mpDLA) at z=3. The following physical picture of mpDLAs emerges. The majority of mpDLAs inhabit regions 20~kpc from the host galaxy center on infalling cold gas streams originating from the intergalactic medium, with infall velocity of 100 km/s and temperature of 104 K. For each host galaxy, on average, about 1\% of the area within a radius 150~kpc is covered by mpDLAs. The mpDLAs are relatively diffuse (ngas 10-2 cm-3), Jeans quasi-stable, and have very low star formation rate ( 10-4 M \ yr-1 \ kpc-2). As mpDLAs migrate inward to the galaxy center, they mix with high metallicity gas and stellar outflows in the process, removing themselves from the metal-poor category and rendering the central ( 5 kpc) regions of galaxies devoid of mpDLAs. Thus, the central regions of the host galaxies are populated by mostly metal-rich DLAs instead of mpDLAs. All observables of the simulated mpDLAs are in excellent agreement with observations, except the gas density, which is about a factor of ten lower than the value inferred observationally. However, the observationally inferred value is based on simplified assumptions that are not borne out in the simulations.