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Inflow and outflow properties, not total gas fractions, drive the evolution of the mass–metallicity relation

Luigi Bassini, Robert Feldmann, Jindra Gensior, Claude‐André Faucher‐Giguère, Elia Cenci, Jorge Moreno, Mauro Bernardini, Lichen Liang

2024Monthly Notices of the Royal Astronomical Society Letters23 citationsDOIOpen Access PDF

Abstract

ABSTRACT Observations show a tight correlation between the stellar mass of galaxies and their gas-phase metallicity (MZR). This relation evolves with redshift, with higher redshift galaxies being characterized by lower metallicities. Understanding the physical origin of the slope and redshift evolution of the MZR may provide important insight into the physical processes underpinning it: star formation, feedback, and cosmological inflows. While theoretical models ascribe the shape of the MZR to the lower efficiency of galactic outflows in more massive galaxies, what drives its evolution remains an open question. In this letter, we analyse how the MZR evolves over z = 0–3, combining results from the FIREbox cosmological volume simulation with analytical models. Contrary to a frequent assertion in the literature, we find that the evolution of the gas fraction does not contribute significantly to the redshift evolution of the MZR. Instead, we show that the latter is driven by the redshift dependence of the inflow metallicity, outflow metallicity, and mass loading factor, whose relative importance depends on stellar mass. These findings also suggest that the evolution of the MZR is not explained by galaxies moving along a fixed surface in the space spanned by stellar mass, gas-phase metallicity, and star formation rate.

Topics & Concepts

PhysicsOutflowInflowMetallicityAstrophysicsRelation (database)GalaxyMechanicsMeteorologyComputer scienceDatabaseHydrocarbon exploration and reservoir analysisGeomagnetism and Paleomagnetism StudiesGeological and Geochemical Analysis
Inflow and outflow properties, not total gas fractions, drive the evolution of the mass–metallicity relation | Litcius