Are the nearby groups of galaxies gravitationally bound objects?

TL;DR

This study compares simulations and observations of nearby galaxy groups, revealing that about 20% are not gravitationally bound, challenging assumptions used in observational mass estimations.

Contribution

It demonstrates that a significant fraction of galaxy groups identified by common algorithms are not gravitationally bound, using cosmological simulations to assess their dynamical state.

Findings

Approximately 20% of nearby galaxy groups are unbound.

The fraction of unbound groups increases with higher Omega_Lambda.

Results are consistent across different simulation resolutions.

Abstract

We have compared numerical simulations to observations for the nearby (< 40 Mpc) groups of galaxies (Huchra & Geller 1982 and Ramella et al. 2002). The group identification is carried out using a group-finding algorithm developed by Huchra and Geller (1982). Using cosmological N-body simulation code with the LambdaCDM cosmology, we show that the dynamical properties of groups of galaxies identified from the simulation data are, in general, in a moderate, within 2sigma, agreement with the observational catalogues of groups of galaxies. As simulations offer more dynamical information than observations, we used the N-body simulation data to calculate whether the nearby groups of galaxies are gravitationally bound objects by using their virial ratio. We show that in a LambdaCDM cosmology about 20 per cent of nearby groups of galaxies, identified by the same algorithm as in the case of observations, are not bound, but merely groups in a visual sense. This is quite significant, specifically because estimations of group masses in observations are often based on an assumption that groups of galaxies found by the friends-of-friends algorithm are gravitationally bound objects. Simulations with different resolutions show the same results. We also show how the fraction of gravitationally unbound groups varies when the apparent magnitude limit of the sample and the value of the cosmological constant is changed. In general, a larger value of the Omega_Lambda generates slightly more unbound groups.