Chemical enrichment in isolated barred spiral galaxies

TL;DR

This study uses simulations to explore how bars influence chemical enrichment in isolated disc galaxies, revealing that bars cause central abundance enhancements and starburst activity, with minimal effects from initial gas fractions or AGN feedback.

Contribution

First detailed simulation analysis of chemical evolution differences between barred and unbarred isolated galaxies, highlighting the role of bars in central abundance enhancement.

Findings

Bars induce central gas inflow and starbursts in massive galaxies.

Barred galaxies show higher [O/H], [Fe/H], and [O/Fe] compared to unbarred.

AGN feedback has minimal impact on central abundances.

Abstract

To investigate the role of bars in the chemical evolution of isolated disc galaxies, we performed a series of 39 gas dynamical simulations of isolated barred and unbarred galaxies with various masses, initial gas fractions, and AGN feedback models. The presence of a bar drives a substantial amount of gas toward the central region of the galaxy. In the most massive galaxies, this results in a violent starburst, followed by a drop in star formation resulting from gas exhaustion. The time delay between Type Ia and Type II supernovae explosions means that barred galaxies experience a rapid increase in [O/H] in the central region, and a much more gradual increase in [Fe/H]. In unbarred galaxies, star formation proceeds at a slow and steady rate, and oxygen and iron are produced at steady rates which are similar except for a time offset. Comparing the abundance ratios in barred and unbarred galaxies with the same central stellar mass $M_*$, we find in barred galaxies an enhancement of 0.07 dex in [O/H], 0.05 dex in [Fe/H], and 0.05 dex in [O/Fe]. The [O/H] enhancement is in excellent agreement with observations from the SDSS. The initial gas fraction has very little effect on the abundance ratios in barred and unbarred galaxies, unless the galaxies experience a starburst. We considered AGN-host galaxies located near the bottom of the AGN regime, $M_*>3\times10^{10}M_\odot$, where AGN feedback dominates over supernovae feedback. We found that the impact of AGN feedback on the central abundances is marginal.