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We have performed an extensive Voigt profile analysis of the neutral hydrogen (HI) and metal absorption present in a sample of 18 high resolution, high signal-to-noise QSO spectra observed with VLT/UVES. We use this analysis to separate the metal contribution from the HI absorption and present an improved measurement of the flux probability distribution function (PDF) due to HI absorption alone at = 2. 07, 2. 52, and 2. 94. The flux PDF is sensitive to the continuum fit in the normalised flux range 0. 8 < F < 1. 0 and to metal absorption at 0. 2 < F < 0. 8. Our new measurements of the flux PDF due to HI absorption alone are systematically lower at 0. 2 < F < 0. 8 by up to 30% compared to the widely used measurement of McDonald et al. (2000), based on a significantly smaller sample of Keck/HIRES data. This discrepancy is probably due to a combination of our improved removal of the metal absorption and cosmic variance, since variations in the flux PDF between different lines-of-sight are large. The HI effective optical depth at 1. 7 < z < 4 is best fit with a single power law, (0. 0023 +-0. 0007) (1+z) ^ (3. 65 +- 0. 21), in good agreement with previous measurements from comparable data. As also found previously, the effect of noise on the flux distribution is not significant in high resolution, high signal-to-noise data.
Kim et al. (Wed,) studied this question.