Metal line emission around z<1 galaxies
Journal
Date Issued
2024
Author(s)
Dutta, Rajeshwari
•
•
Fossati, Matteo
•
Rafelski, Marc
•
Revalski, Mitchell
•
Arrigoni Battaia, Fabrizio
•
•
Peroux, Celine
•
Prichard, Laura J.
•
Swinbank, A. M.
Abstract
We characterize, for the first time, the average extended emission in
multiple lines ([OII], [OIII], and Hbeta) around a statistical sample of 560
galaxies at z~0.25-0.85. By stacking the Multi Unit Spectroscopic Explorer
(MUSE) 3D data from two large surveys, the MUSE Analysis of Gas around Galaxies
(MAGG) and the MUSE Ultra Deep Field (MUDF), we detect significant [OII]
emission out to ~40 kpc, while [OIII] and Hbeta emission is detected out to ~30
kpc. Via comparisons with the nearby average stellar continuum emission, we
find that the line emission at 20-30 kpc likely arises from the disk-halo
interface. Combining our results with that of our previous study at z~1, we
find that the average [OII] surface brightness increases independently with
redshift over z~0.4-1.3 and with stellar mass over M* ~10^{6-12} Msun, which is
likely driven by the star formation rate as well as the physical conditions of
the gas. By comparing the observed line fluxes with photoionization models, we
find that the ionization parameter declines with distance, going from log q
(cm/s) ~7.7 at <=5 kpc to ~7.3 at 20-30 kpc, which reflects a weaker radiation
field in the outer regions of galaxies. The gas-phase metallicity shows no
significant variation over 30 kpc, with a metallicity gradient of ~0.003
dex/kpc, which indicates an efficient mixing of metals on these scales.
Alternatively, there could be a significant contribution from shocks and
diffuse ionized gas to the line emission in the outer regions.
Volume
691
Start page
A236
Issn Identifier
0004-6361
Rights
open.access
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