Astronomy and Astrophysics – Astrophysics
Scientific paper
1999-10-27
Mon.Not.Roy.Astron.Soc. 316 (2000) 107
Astronomy and Astrophysics
Astrophysics
14 pages, 14 figures, to appear in MNRAS, discussion of number of galaxies per halo added - conclusions unchanged
Scientific paper
10.1046/j.1365-8711.2000.03470.x
We use a combination of N-body simulations of the hierarchical clustering of dark matter and semi-analytic modelling of the physics of galaxy formation to probe the relationship between the galaxy distribution and the mass distribution. The pairwise line-of-sight velocity dispersion of galaxies is sensitive to the number of galaxies present in halos of different mass. The galaxy velocity dispersion is ~40% lower than that of the dark matter and is in reasonable agreement with the values measured in the Las Campanas redshift survey by Jing et al. over two decades in pair separation. The origin of this offset is statistical rather than dynamical, and depends upon the relative efficiency of galaxy formation in dark matter halos of different mass. Although the model galaxies and the dark matter have markedly different correlation functions in real space, such biases conspire to cause the redshift space correlation functions to be remarkably similar to each other. The predicted redshift-space galaxy correlation function agrees well with observations. We find no evidence in the model for a dependence of clustering strength on intrinsic galaxy luminosity, unless extremely bright galaxies, two magnitudes brighter than L*, are considered. However, there are significant differences when model galaxies are selected either by morphology or by colour. Early type or red galaxies show a much stronger clustering amplitude than late type or blue galaxies, particularly on small scales, again in good agreement with observations.
Baugh Carlton M.
Benson Andrew J.
Cole Shaun
Frenk Carlos S.
Lacey Cedric G.
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