The Nature and Origin of za~ze Absorption Lines in the Redshift 0.20 Quasar, PKS 2135-147
Abstract
We use new UV and optical spectra and an archival HST-WFPC2 image to study the za~ze absorber in the ze = 0.20 QSO PKS 2135-147. The UV spectra, obtained with HST-FOS, show strong za~ze absorption lines of C IV, N V, O VI, Ly-alpha and Ly-beta. The za~ze line profiles are resolved, with deconvolved FWHM of 270 to 450 km/s. Lower limits on the total column densities are of order 1015 cm-2 for all ions. If the absorber is photoionized by the QSO and the derived relative columns in C IV and H I are roughly correct, then the metallicity must be at least solar. The location of the za~ze absorber remains uncertain. Two ~L* galaxies in a small cluster centered on PKS 2135-147 lie within 36h-1 kpc projected distance and have redshifts consistent with causing or contributing to the za~ze lines. The extensive halo of the QSO's host galaxy could also contribute. Calculations show that the QSO is bright enough to photoionize gas up to O VI in the low-density halos of the host and nearby cluster galaxies. Nonetheless, there is indirect evidence for absorption much nearer the QSO, namely (1) the derived high (albeit uncertain) metallicity, (2) the relatively strong N V absorption lines, which might be caused by a higher nitrogen abundance in the metal-rich gas, and (3) strong, lobe-dominated steep-spectrum radio emission, which is known to correlate with a much higher incidence of (probably intrinsic) za~ze lines. We propose that the CIV/NV/OVI line ratios can be used as a general diagnostic of intrinsic versus intervening absorption, as long as the line saturation effects are understood.
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