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28 March 2024
 
  » arxiv » astro-ph/9910131

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Si and Mn Abundances in Damped Lya Systems with Low Dust Content
Max Pettini Sara Ellison Charles C. Steidel Alice E. Shapley David V. Bowen ;
Date 7 Oct 1999
Subject astro-ph
AffiliationInstitute of Astronomy, Cambridge) Sara Ellison (Institute of Astronomy, Cambridge) Charles C. Steidel (Palomar Observatory) Alice E. Shapley (Palomar Observatory) David V. Bowen (Princeton University Observatory
AbstractWe have measured the abundances of Zn, Si, Mn, Cr, Fe, and Ni in three damped Lyman alpha systems at redshifts z < 1 from high resolution echelle spectra of QSOs recorded with the Keck I telescope. In all three cases the abundances of Cr, Fe, and Ni relative to Zn indicate low levels of dust depletions. We propose that when the proportion of refractory elements locked up in dust grains is less than about 50 percent, it is plausible to assume an approximately uniform level of depletion for all grain constituents and, by applying a small dust correction, recover the intrisic abundances of Si and Mn. We use this approach on a small sample of damped systems for which it is appropriate, with the aim of comparing the metallicity dependence of the ratios [Si/Fe] and [Mn/Fe] with analogous measurements in Milky Way stars. The main conclusion is that the relative abundances of both elements in distant galaxies are broadly in line with expectations based on Galactic data. Si displays a mild enhancement at low metallicities, as expected for an alpha-capture element, but there are also examples of near-solar [Si/Fe] at [Fe/H] < -1. The underabundance of Mn at low metallicities is possibly even more pronounced than that in metal-poor stars, and no absorption system has yet been found where [Mn/Fe] is solar. The heterogeneous chemical properties of damped Lyman alpha systems, evident even from this limited set of measurements, provide further support for the conclusion from imaging studies that a varied population of galaxies gives rise to this class of QSO absorbers.
Source arXiv, astro-ph/9910131
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