Galaxy counterparts of high-redshift DLA systems
Abstract
Our understanding of the nature of DLA systems at large redshifts, ostensibly progenitors of normal disk galaxies, depends critically on their direct identifications with galaxies, and the resulting measurements of their properties. A few such objects have now been found, reaching out to z ~ 4.1. Their observed luminosities are L ~ L*, star formation rates a few Msun/yr, physical sizes ~ 20 kpc, and velocity fields of a few hundred km/s, implying masses > 1011 Msun. While their morphology remains uncertain, the observed properties are consistent with those expected of young disk galaxies in the early stages of formation. We also find a statistically significant excess of foreground galaxies near lines of sight to luminous quasars at z > 4. This suggests a systematical gravitational lensing magnification of such quasar samples, possibly with important consequences for the estimates of the quasar luminosity function at high redshifts, and the deduced Omegab in DLA systems found in their spectra.
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