ChemicalUniverseMachine I: Uncovering the Cosmic Evolution of Metals in the Galaxy-ISM-CGM Ecosystem
Abstract
We present an empirical chemical evolution model that explains the distribution of metals in the interstellar medium (ISM) and the circumgalactic medium (CGM) of galaxies based on the UniverseMachine and NeutralUniverseMachine models in the framework of structure formation. We parameterize the fractions of outflowing metals returned and mixed into the multi-phase ISM of the star-forming regions (f H2) and into the neutral gas regions (f HI); metal production, transfer, and dilution are caused by star formation, galaxy mergers, and gas inflow from the inter-galactic medium, respectively, with rates determined by the (Neutral)UniverseMachine models. Using a Markov Chain Monte Carlo algorithm, we explore the posterior distributions of metal return and mixing consistent with observed mass-metallicity relations in HII regions (at 0<z<5), HI damped Lyman-alpha systems (at 1<z<4), and the CGM (at z=0). We find that the fraction of metals present in the ISM, f H2+f HI, increases with halo mass from 20\% at 1010M to 80\% at 1013M. These fractions increase mildly at higher redshifts, to 30\% at 1010M and 80\% at 1013M at z=5. Interestingly, there is no significant redshift evolution of f H2+f HI at fixed circular velocity, suggesting that metal distribution between the ISM and CGM is universally determined by the halo potential well depth. CGM metal enrichment is thus slow in high-z halos with deep potential wells. While f H2 monotonically increases with halo mass, f HI peaks at 1012-1013 M, suggesting that reinfall may be inefficient in larger-mass halos.
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