High-Redshift Superclustering of QSO Absorption Line Systems on 100 Mpc Scales
Abstract
We have analyzed the clustering of C IV absorption line systems in an extensive new catalog of heavy element QSO absorbers. The catalog permits exploration of clustering over a large range in both scale (from about 1 to over 300 Mpc) and redshift (z from 1.2 to 4.5). We find significant evidence (5.0 sigma) that C IV absorbers are clustered on comoving scales of 100 Mpc and less --- similar to the size of voids and walls found in galaxy redshift surveys of the local universe --- with a mean correlation function = 0.42 0.10 over these scales. We find, on these scales, that the mean correlation function at low (z=1.7), medium (z=2.4), and high redshift (z=3.0) is =0.40 0.17, 0.32 0.14, and 0.72 0.25, respectively. Thus, the superclustering is present even at high redshift; furthermore, it does not appear that the superclustering scale, in comoving coordinates, has changed significantly since then. We find 7 QSOs with rich groups of absorbers (potential superclusters) that account for a significant portion of the clustering signal, with 2 at redshift z 2.8. We find that the superclustering is just as evident if we take q0=0.1 instead of 0.5; however, the inferred scale of clustering is then 240 Mpc , which is larger than the largest scales of clustering known at present. This discrepancy may be indicative of a larger value of q0, and hence 0. The evolution of the correlation function on 50 Mpc scales is consistent with that expected in cosmologies with density parameter ranging from 0 = 0.1 to 1. Finally, we find no evidence for clustering on scales greater than 100 Mpc (q0=0.5) or 240 Mpc (q0=0.1).
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