English

Large-Scale Structure at z~2.5

Astrophysics 2015-06-24 v1

Abstract

We have made a statistically complete, unbiased survey of C IV systems toward a region of high QSO density near the South Galactic Pole using 25 lines of sight spanning 1.5<z<2.81.5<z<2.8. Such a survey makes an excellent probe of large-scale structure at early epochs. We find evidence for structure on the 1535h115-35h^{-1} proper Mpc scale (H0100H_0 \equiv 100 km s1s^{-1} Mpc1{-1}) as determined by the two point C IV - C IV absorber correlation function, and reject the null hypothesis that C IV systems are distributed randomly on such scales at the 3.5σ\sim 3.5\sigma level. The structure likely reflects the distance between two groups of absorbers subtending  13×5×21h3\sim~ 13 \times 5 \times 21h^{-3} and 7×1×15h3\sim 7 \times 1 \times 15h^{-3} Mpc3^3 at z2.3z\sim 2.3 and z2.5z \sim 2.5 respectively. There is also a marginal trend for the association of high rest equivalent width C IV absorbers and QSOs at similar redshifts but along different lines of sight. The total number of C IV systems detected is consistent with that which would be expected based on a survey using many widely separated lines of sight. Using the same data, we also find 11 Mg II absorbers in a complete survey toward 24 lines of sight; there is no evidence for Mg II - Mg II or Mg II - QSO clustering, though the sample size is likely still small to detect such structure if it exists.

Keywords

Cite

@article{arxiv.astro-ph/9512108,
  title  = {Large-Scale Structure at z~2.5},
  author = {G. M. Williger and C. Hazard and J. A. Baldwin and R. G. McMahon},
  journal= {arXiv preprint arXiv:astro-ph/9512108},
  year   = {2015}
}

Comments

56 pages including 32 of figures, in gzip-ed uuencoded postscript format, 1 long table not included, aastex4 package. Accepted for publication in ApJ Supplements