Azimuthal variations of oxygen abundance profiles in star-forming regions of disc galaxies in EAGLE simulations
Cargando...
Archivos
Fecha
2020-02
Profesor/a Guía
Facultad/escuela
Idioma
en
Título de la revista
ISSN de la revista
Título del volumen
Editor
Oxford University Press
Nombre de Curso
Licencia CC
Licencia CC
Resumen
The exploration of the spatial distribution of chemical abundances in star-forming regions
of galactic discs can help us to understand the complex interplay of physical processes that
regulate the star formation activity and the chemical enrichment across a galaxy. We study the
azimuthal variations of the normalized oxygen abundance profiles in the highest numerical
resolution run of the Evolution and Assembly of GaLaxies and their Environments (EAGLE)
Project at z = 0. We use young stellar populations to trace the abundances of star-forming
regions. Oxygen profiles are estimated along different line of sights from a centrally located
observer. The mean azimuthal variation in the EAGLE discs are ∼0.12 ± 0.03 dex R−1
eff for
slopes and ∼0.12 ± 0.03 dex for the zero-points, in agreement with previous works. Metallicity
gradients measured along random directions correlate with those determined by averaging over
the whole discs, although with a large dispersion. We find a slight trend for higher azimuthal
variations in the disc components of low star-forming and bulge-dominated galaxies. We
also investigate the metallicity profiles of stellar populations with higher and lower levels of
enrichment than the average metallicity profiles, and we find that high star-forming regions with
high metallicity tend to have slightly shallower metallicity slopes compared with the overall
metallicity gradient. The simulated azimuthal variations in the EAGLE discs are in agreement
with observations, although the large variety of metallicity gradients would encourage further
exploration of the metal mixing in numerical simulations.
Notas
Palabras clave
galaxies: abundances – galaxies: evolution – galaxies: ISM.
Citación
Monthly Notices of the Royal Astronomical Society Open AccessVolume 491, Issue 4, Pages 4894 - 49011 February 2020