Photoionized OVI absorbers toward the bright QSO HE 0515-4414
Abstract
We report on detailed Monte Carlo inversion analysis of five OVI systems from the spectrum of the bright quasar HE 0515-4414 (ze = 1.71). The associated system at za = 1.697 with the neutral hydrogen column density N(HI)= 4.4 1013 cm-2 shows pronounced absorption from highly ionized transitions of CIII, CIV, NV, OVI, SiIV, and probably SVI. We found that only a power law type ionizing spectrum (Jnu propto nu-1.5) is consistent with the observed sample of the line profiles, i.e. the system is definitely intrinsic. The relative metal abundances give almost the solar pattern and the metallicity of about 5 times solar. The system originates in a thin shell of the line-of-sight thickness L <= 16 pc. Two OVI systems at za = 1.674 ([C/H] = -1.6) and 1.602 ([O/H] = -1.1), arising in intervening halos, have linear sizes of L = 3-14 kpc and 17 kpc, respectively. Absorption systems at za = 1.385 ([C/H] = -0.3, L = 1.7-2.5 kpc) and za = 1.667 ([C/H] = -0.5, L = 1 kpc) exhibit characteristics very similar to that observed in metal-enriched high velocity clouds in the Milky Way.These systems are probably embedded in extremely metal-poor halos with [C/H] < -2.4 (za = 1.667) and [C/H] < -3.7 (za = 1.385). We also found two additional extremely metal-poor Ly-alpha systems at za = 1.500 and 1.681 with, respectively, N(HI) = 1.7 1015 and 1.8 1015 cm-2 and [C/H] < -4.0 and <-3.0, - an indication that the distribution of metals in the metagalactic medium is utterly patchy. Our results show that the ionization states in the analyzed OVI absorbers, ranging from z = 1.4 to 1.7, can be maintained by photoionization only and that the fraction of the shock-heated hot gas with temperature T > 105 K is negligible in these systems.
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