Andre L. B. Ribeiro, Paulo A. A. Lopes, Marina Trevisan
Published 2011-03-02Version 1
We present a study of 9 galaxy groups with evidence for non-Gaussianity in their velocity distributions out to 4R200. This sample is taken from 57 groups selected from the 2PIGG catalog of galaxy groups. Statistical analysis indicates that non-Gaussian groups have masses significantly higher than Gaussian groups. We also have found that all non-Gaussian systems seem to be composed of multiple velocity modes. Besides, our results indicate that multimodal groups should be considered as a set of individual units with their own properties. In particular, we have found that the mass distribution of such units are similar to that of Gaussian groups. Our results reinforce the idea of non-Gaussian systems as complex structures in the phase space, likely corresponding to secondary infall aggregations at a stage before virialization. The understanding of these objects is relevant for cosmological studies using groups and clusters through the mass function evolution.
Comments: 5 pages, 4 figures and 2 tables. Accepted for publication in the MNRAS
Segregation Effects According to the Evolutionary Stage of Galaxy Groups
Evolution in the H I Gas Content of Galaxy Groups: Pre-Processing and Mass Assembly in the Current Epoch
Implications of feedback solutions to the $S_8$ tension for the baryon fractions of galaxy groups and clusters
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