The Population of Weak Mg II Absorbers I. A Survey of 26 QSO HIRES/Keck Spectra
Abstract
We present a search for "weak" MgII absorbers [those with Wr(2796) < 0.3 A in the HIRES/Keck spectra of 26 QSOs. We found 30, of which 23 are newly discovered. The spectra are 80% complete to Wr(2796) = 0.02 A and have a cumulative redshift path of ~17.2 for the redshift range 0.4 < z < 1.4. The number of absorbers per unit redshift, dN/dz, is seen to increase as the equivalent width threshold is decreased; we obtained dN/dz = 1.74+/-0.10 for our 0.02 <= Wr(2796) < 0.3 A sample. The equivalent width distribution follows a power law with slope -1.0; there is no turnover down to Wr(2796) = 0.02 A at <z> = 0.9. Weak absorbers comprise at least 65% of the total MgII absorption population, which outnumbers Lyman limit systems (LLS) by a factor of 3.8+/-1.1; the majority of weak MgII absorbers must arise in sub-LLS environments. Tentatively, we predict that ~5% of the Lyman-alpha forest clouds with Wr(1215) > 0.1 A will have detectable MgII absorption to Wr,min(2796) = 0.02 A and that this is primarily a high-metallicity selection effect (Z/Zsun] > -1). This implies that MgII absorbing structures figure prominently as tracers of sub-LLS environments where gas has been processed by stars. We compare the number density of Wr(2796) > 0.02 A absorbers with that of both high and low surface brightness galaxies and find a fiducial absorber size of 35h-1 to 63h-1 kpc, depending upon the assumed galaxy population and their absorption properties. The individual absorbing "clouds" have Wr(2796) <= 0.15 A and their narrow (often unresolved) line widths imply temperatures of ~25,000 K. We measured Wr(1548) from CIV in FOS/HST archival spectra and, based upon comparisons with FeII, found a range of ionization conditions (low, high, and multi-phase) in absorbers selected by weak MgII.
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