The role of gas kinematics in setting metallicity gradients at high redshift

Date

2021

Authors

Sharda, Piyush
Wisnioski, Emily
Krumholz, Mark
Federrath, Christoph

Journal Title

Journal ISSN

Volume Title

Publisher

Oxford University Press

Abstract

In this work, we explore the diversity of ionized gas kinematics (rotational velocity vπ and velocity dispersion σg) and gasphase metallicity gradients at 0.1 ≥ z ≥ 2.5 using a compiled data set of 74 galaxies resolved with ground-based integral field spectroscopy.We find that galaxies with the highest and the lowest σg have preferentially flat metallicity gradients, whereas those with intermediate values of σg show a large scatter in the metallicity gradients. Additionally, steep negative gradients appear almost only in rotation-dominated galaxies (vπ/σg > 1), whereas most dispersion-dominated galaxies show flat gradients. We use our recently developed analytical model of metallicity gradients to provide a physical explanation for the shape and scatter of these observed trends. In the case of high σg, the inward radial advection of gas dominates over metal production and causes efficient metal mixing, thus giving rise to flat gradients. For low σg, it is the cosmic accretion of metal-poor gas diluting the metallicity that gives rise to flat gradients. Finally, the reason for intermediate σg showing the steepest negative gradients is that both inward radial advection and cosmic accretion are weak as compared to metal production, which leads to the creation of steeper gradients. The larger scatter at intermediate σg may be due in part to preferential ejection of metals in galactic winds, which can decrease the strength of the production term. Our analysis shows how gas kinematics play a critical role in setting metallicity gradients in high-redshift galaxies.

Description

Keywords

ISM: abundances, galaxies: abundances, galaxies: evolution, galaxies: high-redshift, galaxies: ISM, galaxies: kinematics and dynamics

Citation

Source

Monthly Notices of the Royal Astronomical Society

Type

Journal article

Book Title

Entity type

Access Statement

Open Access

License Rights

Restricted until

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