Abstract

We investigate the evolution and the statistical properties of the Ly ? absorbers of the intergalactic medium (IGM) in the largely unexplored redshift range z = 0.5-1.9. We use high-resolution (R ? 30 000) UV (STIS) and optical (VLT/UVES and Keck/HIRES) spectra of nine bright quasars with z em < 1.94. The Ly ? lines detected in the lines of sight (LOS) towards these quasars are evaluated with a software package which determines simultaneously the quasar continuum and the line profiles. The main results for the combined Ly ? line sample are summarized as follows: 1. The evolution of the number density of the absorbers can be described by the power law dn/dz ? (1 + z)?. The number density of the low column density lines (NHI = (1012.90-1014.00) cm-2) decreases with decreasing z with ? = 0.74 ± 0.31 in the interval z = 0.7-1.9. A comparison with results at higher redshifts shows that it is decelerated in the explored redshift range and turns into a flat evolution for z ? 0. The stronger absorbers (NHI > 10 13.64 cm-2) thin out faster (? = 1.50 ± 0.45). The break in their evolution predicted for z = 1.5-1.7 cannot be seen down to z = 0.7. On the other hand, a comparison with values from the literature for the local number density gives a hint that this break occurs at lower redshift. 2. The distribution of the column densities of the absorbers is complete down to NHI = 1012.90 cm-2. It can be approximated by a single power law with the exponent ?= 1.60 ± 0.03 over almost three orders of magnitude, ? is redshift independent. 3. The Ly ? lines with lower column densities as well as the higher column density lines show marginal clustering with a 2? significance over short distances (?v < 200 km s-1 and ?v < 100 km s-1, respectively). We do not see any difference in the clustering with either column density or redshift. 4. The distribution of the Doppler parameters has a mean value of b?= (34 ± 22) km s-1. This value is typical for the analyzed region. It does not change significantly with z. © ESO 2006.