Extreme Ultraviolet Absorption Lines in LyA Forest Absorbers and the Oxygen Abundance in the Intergalactic Medium

We create stacked composite absorption spectra from Hubble Space Telescope Faint Object Spectrograph data from four quasi-stellar objects to search for absorption lines in the extreme ultraviolet wavelength region associated with LyA forest absorbers in the redshift range 1.6 < z < 2.9. We successfully detect O V 630 in LyA absorbers throughout the 10^13 to 10^16.2 cm^-2 column density range. For a sample of absorbers with 10^13.2 < N(H I) < 10^14.2 cm^-2, corresponding to gas densities ranging from around the universal mean to overdensities of a few, we measure an O V 630 equivalent width of 10.9 +/- 3.7 mA. We estimate the detection is real with at least 99% confidence. We only detect O IV 788, O IV 554, O III 833, and HeI 584 in absorbers with LyA equivalent widths > 0.6 A, which are likely associated with traditional metal-line systems. We find no evidence in any subsamples for absorption from N IV 765, NeV 568, NeVI 559, NeVIII 770, 780, or MgX 610, 625. The measured equivalent widths of O V suggest values of <O V / H I> in the range -1.7 to -0.6 for 10^13.2 < N(H I) < 10^15 cm^-2. The lack of detectable O IV absorption except in the strongest absorption systems suggests a hard ionizing background similar to the standard Haardt & Madau spectrum. Using photoionization models, we estimate that the oxygen abundance in the intergalactic medium with respect to the solar value is [O / H] around -2.2 to -1.3. Comparing to studies of C IV, we estimate [O / C] around 0.3 to 1.2. The overabundance of oxygen relative to carbon agrees with other low-metallicity abundance measurements and suggests enrichment of the intergalactic medium by Type II supernovae.