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We investigate possible systematic errors in the recent measurement of the matter power spectrum from the Lyman-alpha forest by Croft et al. We find that for a large set of prior cosmological models the Croft et al. result holds quite well, with systematic errors being comparable with random ones, when a dependence of the recovered-matter power spectrum on the cosmological parameters at z∼3 is taken into account. We find that peculiar velocities cause the flux power spectrum to be smoothed over about 100–300 km s-1, depending on scale. Consequently, the recovered-matter power spectrum is a smoothed version of the underlying true power spectrum. Uncertainties in the recovered power spectrum are thus correlated over about 100–300 km s-1. As a side effect, we find that residual fluctuations in the ionizing background, while having almost no effect on the recovered-matter power spectrum, significantly bias estimates of the baryon density from the Lyman-alpha forest data. We therefore conclude that the Croft et al. result provides a powerful new constraint on cosmological parameters and models of structure formation.
Gnedin et al. (Mon,) studied this question.
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