Stellar masses, metallicity gradients and suppressed star formation revealed in a new sample of absorption selected galaxies

TL;DR

This study confirms and characterizes a sample of absorption-selected galaxies at z<1, revealing their stellar masses, metallicity gradients, and suppressed star formation, and compares these properties with galaxy scaling relations.

Contribution

It provides new spectroscopic confirmation of absorbing galaxies and analyzes their metallicity gradients and star formation rates in relation to their mass and absorption properties.

Findings

Absorbing galaxies with stellar mass >10^10 M_sun have lower star formation rates than the main sequence.

Metallicity gradients are robustly measured at approximately 0.022 dex per kpc.

Absorbing galaxies align with mass-metallicity relations after corrections for metallicity gradients.

Abstract

Context. Absorbing galaxies are selected via the detection of characteristic absorption lines which their gas-rich media imprint in the spectra of distant light-beacons. The proximity of the typically faint foreground absorbing galaxies to bright background sources makes it challenging to robustly identify these in emission, and hence to characterise their relation to the general galaxy population. Aims. We search for emission to confirm and characterise ten galaxies hosting damped, metal-rich quasar absorbers at redshift z < 1. Methods. We identify the absorbing galaxies by matching spectroscopic absorption -and emission redshifts and from projected separations. Combining emission-line diagnostics with existing absorption spectroscopy and photometry of quasar-fields hosting metal-rich, damped absorbers, we compare our new detections with reference samples and place them on scaling relations. Results. We spectroscopically confirm seven galaxies harbouring damped absorbers (a 70% success-rate). Our results conform to the emerging picture that neutral gas on scales of tens of kpc in galaxies is what causes the characteristic Hi absorption. Our key results are: (I) Absorbing galaxies with $\log _{10} [M_\star ~(M_\odot)] \gtrsim 10$ have star formation rates that are lower than predicted for the main sequence of star formation. (II) The distribution of impact parameter with Hi column density and with absorption-metallicity for absorbing galaxies at $z\sim 2-3$ extends to $z\sim 0.7$ and to lower Hi column densities. (III) A robust mean metallicity gradient of $\langle \Gamma \rangle = 0.022 \pm 0.001~[dex~kpc^{-1}]$. (IV) By correcting absorption metallicities for $\langle \Gamma \rangle$ and imposing a truncation-radius at $12~\mathrm{kpc}$, absorbing galaxies fall on top of predicted mass-metallicity relations, with a statistically significant decrease in scatter.