The Gaseous Extent of Galaxies and The Origin of QSO Absorption Line Systems

Abstract

We present results of an ongoing program to study the gaseous extent of galaxies and the origin of QSO absorption line systems. For absorption systems, we find that absorption equivalent width depends strongly on galaxy impact parameter and galaxy B-band luminosity, and that the gaseous extent of individual galaxies scales with galaxy B-band luminosity as r LB0.400.09. Applying the results to galaxies in the Hubble Deep Field to calculate the predicted number density of absorption lines as a function of redshift and comparing it with observations, we find that at least 50% and perhaps as much as 100% of absorption systems with W0.32 can be explained by the extended gaseous envelops of normal galaxies. The anti-correlation analysis has also been performed on absorption line systems, and the results show that the ionized gas cross section scales with galaxy B-band luminosity as r LB0.760.26.

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