Bibcode
López-Corredoira, M.
Referencia bibliográfica
The Astrophysical Journal, Volume 781, Issue 2, article id. 96, 15 pp. (2014).
Fecha de publicación:
2
2014
Revista
Número de citas
40
Número de citas referidas
33
Descripción
In order to test the expansion of the universe and its geometry, we
carry out an Alcock-Paczyński cosmological test, that is, an
evaluation of the ratio of observed angular size to radial/redshift
size. The main advantage of this test is that it does not depend on the
evolution of the galaxies but only on the geometry of the universe.
However, the redshift distortions produced by the peculiar velocities of
the gravitational infall also have an influence, which should be
separated from the cosmological effect. We derive the anisotropic
correlation function of sources in three surveys within the Sloan
Digital Sky Survey (SDSS): galaxies from SDSS-III/Baryon Oscillation
Spectroscopic Survey Data Release 10 (BOSS-DR10) and QSOs from SDSS-II
and SDSS-III/BOSS-DR10. From these, we are able to disentangle the
dynamic and geometric distortions and thus derive the ratio of observed
angular size to radial/redshift size at different redshifts. We also add
some other values available in the literature. Then we use the data to
evaluate which cosmological model fits them. We used six different
models: concordance ΛCDM, Einstein-de Sitter, open-Friedman
cosmology without dark energy, flat quasi-steady state cosmology, a
static universe with a linear Hubble law, and a static universe with
tired-light redshift. Only two of the six models above fit the data of
the Alcock-Paczyński test: concordance ΛCDM and static
universe with tired-light redshift, whereas the rest of them are
excluded at a >95% confidence level. If we assume that ΛCDM is
the correct one, the best fit with a free Ω m is
produced for \Omega _m=0.24^{+0.10}_{-0.07}.
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