2008A&A...477..381S -
Astronomy and Astrophysics, volume 477, 381-395 (2008/1-2)
Extension and estimation of correlations in cold dark matter models.
SYLOS LABINI F. and VASILYEV N.L.
Abstract (from CDS):
We discuss the large-scale properties of standard cold dark-matter cosmological models characterizing the main features of the power spectrum, of the two-point correlation function, and of the mass variance. Both the real-space statistics show a very well-defined behavior on large enough scales, for their amplitudes to become smaller than unity. The correlation function, in the range 0<ξ(r)<1, is characterized by a typical length scale rc, where ξ(rc)=0, which is fixed by the physics of the early universe. Beyond this scale it becomes negative, going to zero with a tail proportional to -(r–4). These anti-correlations thus represent an important observational challenge for verifying models in real space. The same length scale rc characterizes the behavior of the mass variance, which decays for r>rc as r–4, the fastest decay of any mass distribution. The length-scale rc defines the maximum extension of (positively correlated) structures in these models. These are the features expected for the dark-matter field: however galaxies, which represent a biased field, may differ in their behaviors, which we analyze. We then discuss the detectability of these real-space features by considering several estimators of the two-point correlation function. By making tests on numerical simulations, we emphasize the important role of finite size effects, which should always be controlled for careful measurements.
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Journal keyword(s):
cosmology: observations - cosmology: large-scale structure of Universe - cosmology: miscellaneous
Simbad objects:
1
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