A comprehensive set of elemental abundances in damped Lyαsystems: Revealing the nature of these high-redshift galaxies

Abstract

By combining our UVES-VLT spectra of a sample of four damped Lyα systems (DLAs) toward the quasars Q0100+13, Q1331+17, Q2231−00 and Q2343+12 with the existing HIRES-Keck spectra, we covered the total optical spectral range from 3150 to 10 000 A for the four quasars. This large wavelength coverage and the high quality of the spectra allowed us to measure the column densities of up to 21 ions, namely of 15 elements − N, O, Mg, Al, Si, P, S, Cl, Ar, Ti, Cr, Mn, Fe, Ni, Zn. This comprehensive set of ionic column densities and elemental abundances severely contrasts with the majority of DLAs for which only a handful of ions and elements is typically observed. Such a large amount of information is necessary to constrain the photoionization and dust depletion effects, two important steps in order to derive the intrinsic chemical abundance patterns of DLAs. We evaluated the photoionization effects with the help of the Al + /Al ++ ,F e + /Fe ++ ,N 0 /N + and Ar/Si, S ratios, and com- puted dust corrections. Our analysis revealed that the DLA toward Q2343+12 requires important ionization corrections. This makes the abundance determinations in this object uncertain. The access to the complete series of relatively robust intrinsic ele- mental abundances in the other three DLAs allowed us to constrain their star formation history, their age and their star formation rate by a detailed comparison with a grid of chemical evolution models for spiral and dwarf irregular galaxies. Our results show that the galaxies associated with these three DLAs in the redshift interval zabs = 1.7-2.5 are either outer regions of spiral disks (radius ≥ 8 kpc) or dwarf irregular galaxies (showing a bursting or continuous star formation history) with ages varying from some 50 Myr only to 3.5 Gyr and with moderate star formation rates per unit area of −2.1 < log ψ< −1.5 Myr −1 kpc −2 .