A SINFONI Integral Field Spectroscopy Survey for Galaxy Counterparts to Damped Lyman-alpha Systems - II. Dynamical Properties of the Galaxies towards Q0302-223 and Q1009-0026

TL;DR

This study investigates the dynamical properties of galaxies associated with Damped Lyman-alpha systems using near-infrared integral field spectroscopy, revealing diverse kinematic behaviors and estimating galaxy masses to understand galaxy formation processes.

Contribution

It provides new dynamical measurements and mass estimates of DLA host galaxies, highlighting differences in their kinematic states and gas fractions, based on SINFONI observations.

Findings

Q0302-223 DLA is dispersion-dominated.

Q1009-0026 sub-DLA shows rotation signatures.

Estimated halo mass of the sub-DLA is 10^12.6 M_sun.

Abstract

Details of processes through which galaxies convert their gas into stars need to be studied in order to obtain a complete picture of galaxy formation. One way to tackle these phenomena is to relate the HI gas and the stars in galaxies. Here, we present dynamical properties of Damped and sub-Damped Lyman-alpha Systems identified in H-alpha emission with VLT/SINFONI at near infra-red wavelengths. While the DLA towards Q0302-223 is found to be dispersion-dominated, the sub-DLA towards Q1009-0026 shows clear signatures of rotation. We use a proxy to circular velocity to estimate the mass of the halo in which the sub-DLA resides and find M_halo=10^12.6 M_sun. We also derive dynamical masses of these objects, and find M_dyn=10^10.3 M_sun and 10^10.9 M_sun. For one of the two systems (towards Q0302-223), we are able to derive a stellar mass of M_*=10^9.5 M_sun from Spectral Energy Distribution fit. The gas fraction in this object is 1/3rd, comparable to similar objects at these redshifts. Our work illustrates that detailed studies of quasar absorbers can offer entirely new insights into our knowledge of the interaction between stars and the interstellar gas in galaxies.