Astronomy and Astrophysics – Astrophysics
Scientific paper
1999-12-16
Astronomy and Astrophysics
Astrophysics
LaTeX2e (requires EslabStyle.cls), 7 pages, 4 figures (5 PS files); To appear in the proceedings of ESLAB33: Star Formation
Scientific paper
We are encouraged by the improving abundance measurements for quasar damped absorption line systems to start a new study of galaxy chemical evolution from high to low redshifts. Our goal is a simple, robust model based on a synthesis of our best understanding of the relevant physics, such as cosmology, large-scale structure formation, galaxy collapse, star formation and chemical evolution. Our initial model assumes continuous quiescent star formation, and no galaxy mergers. We use this galaxy chemical evolution model to study the properties high column density gas out to high redshifts, as revealed by damped Ly-alpha absorption (DLA). We find that there is a significant population of dwarf galaxy DLA systems at moderate redshift (z ~ 2.5, which would not have been accessible to previous imaging surveys around DLA quasars. Our model also provides a reasonable prediction of the global star formation history of the Universe as measured from the UV luminosity density. The next theoretical step is clearly to allow galaxy mergers and hence, model the effects of major bursts of (probably dust-enshrouded) star formation. We are also using time-delayed element production to probe stellar populations in DLA galaxies.
Baker Amanda C.
Churches David K.
Edmunds Michael G.
Mathlin G. P.
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