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Tracing the nature of dark energy with galaxy distribution

P. Solevi
(
- Milan Bicocca U. and
- INFN, Milan
)
,
R. Mainini
(
- Milan Bicocca U. and
- INFN, Milan
)
,
S.A. Bonometto
(
- Milan Bicocca U. and
- INFN, Milan
)
,
A.V. Maccio
(
- Zurich U.
)
,
A. Klypin
(
- New Mexico State U.
)

Apr, 2005

10 pages

Published in:

Mon.Not.Roy.Astron.Soc. 366 (2006) 1346-1356

e-Print:

astro-ph/0504124 [astro-ph]

DOI:

10.1111/j.1365-2966.2005.09914.x

View in:

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Abstract: (arXiv)

Dynamical Dark Energy (DE) is a viable alternative to the cosmological constant. Yet, constructing tests to discriminate between Lambda and dynamical DE models is difficult because the differences are not large. In this paper we explore tests based on the galaxy mass function, the void probability function (VPF), and the number of galaxy clusters. At high z the number density of clusters shows large differences between DE models, but geometrical factors reduce the differences substantially. We find that detecting a model dependence in the cluster redshift distribution is a hard challenge. We show that the galaxy redshift distribution is potentially a more sensitive characteristics. We do so by populating dark matter halos in Nbody simulations with galaxies using well-tested Halo Occupation Distribution (HOD). We also estimate the Void Probability Function and find that, in samples with the same angular surface density of galaxies in different models, the VPF is almost model independent and cannot be used as a test for DE. Once again, geometry and cosmic evolution compensate each other. By comparing VPF's for samples with fixed galaxy mass limits, we find measurable differences.

ANALYTICAL METHODS
NUMERICAL METHODS
GALAXY CLUSTERS
COSMOLOGY THEORY

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