Small Deviations from Gaussianity and the Galaxy Cluster AbundanceEvolution

A. L. B. Ribeiro; C. A. Wuensche; P. S. Letelier

doi:10.1086/309232

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Small Deviations from Gaussianity and the Galaxy Cluster Abundance Evolution

A. L. B. Ribeiro¹, C. A. Wuensche², and P. S. Letelier¹

© 2000. The American Astronomical Society. All rights reserved. Printed in U.S.A.
The Astrophysical Journal, Volume 539, Number 1 Citation A. L. B. Ribeiro et al 2000 ApJ 539 1 DOI 10.1086/309232

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¹ Departamento de Matemática Aplicada - IMECC, Universidade Estadual de Campinas, 13083-970 SP, Brazil

² Divisão de Astrofísica - INPE, 12201-970 SP, Brazil

Dates

Received 1999 December 2
Accepted 2000 March 14

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Abstract

In this paper, we raise the hypothesis that the density fluctuation field, which originates the growth of large-scale structures, is a combination of two or more distributions, instead of assuming that the observed distribution of matter stems from a single Gaussian field produced in the very early universe, as is widely accepted. By applying the statistical analysis of finite-mixture distributions to a specific combination of Gaussian plus non-Gaussian random fields, we studied the case in which just a small departure from Gaussianity is allowed. Our results suggest that even a very small level of non-Gaussianity may introduce significant changes in the cluster abundance evolution rate.

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