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Observations from the Hopkins Ultraviolet Telescope and the Hubble Space Telescope have recently detected He II absorption along the lines of sight to two high-redshift quasars. We use cosmological simulations with gas dynamics to investigate He II absorption in the cold dark matter (CDM) theory of structure formation. We consider two ) \ 1 CDM models with di erent normalizations and one open universe CDM model. The simulations incorporate the photoionizing UV background spec-() 0 \ 0.4) trum computed by Haardt & Madau, which is based on the output of observed quasars and reprocessing by the Lya forest. The simulated gas distribution, combined with the Haardt & Madau spectral shape, accounts for the relative observed values of and the e ective mean optical depths for H I q6 H I q6 He II , and He II absorption. If the background intensity is as high as Haardt & Madau predict, then matching the absolute observed values of and requires a baryon abundance larger (by factors between 1.5 q6 H I q6 He II and 3 for the various CDM models) than our assumed value of The simulations repro-) b h2 \ 0.0125. duce the evolution of over the observed redshift range, if the He II photoionization q6 He II 2.2 [ z [ 3.3, rate remains roughly constant.
Croft et al. (Mon,) studied this question.
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