# The Occurrence of Compact Groups of Galaxies Through Cosmic Time

**Authors:** Christopher D. Wiens (1), Trey V. Wenger (1,2), Panayiotis Tzanavaris, (3,4), Kelsey E. Johnson (1,2), S.C. Gallagher (5,6,7,8), Liting Xiao (1,9), ((1) University of Virginia, (2) NRAO, (3) NASA/GSFC, (4) CRESST/UMBC, (5), Physics, Astronomy, University of Western Ontario (UWO), (6) Centre for, Planetary, Space Exploration (UWO) (7) Rotman Institute of Philosophy, (UWO), (8) Canadian Space Agency, (9) CalTech Physics, Mathematics, and, Astronomy)

arXiv: 1901.09041 · 2021-08-18

## TL;DR

This study uses a semi-analytical model on the Millennium Simulation to explore the evolution and properties of compact galaxy groups across cosmic time, revealing their peak prevalence around redshift 2 and their merger histories.

## Contribution

It introduces a new method for identifying 3D compact galaxy groups in simulations and analyzes their evolution from high redshift to present day.

## Key findings

- Peak of non-dwarf galaxy percentage in CGs near z~2
- Less than 3% of galaxies are in CGs at peak redshift
- Most z=2 CGs merge into single galaxies by z=0

## Abstract

We use the outputs of a semi-analytical model of galaxy formation run on the Millennium Simulation to investigate the prevalence of 3D compact groups (CGs) of galaxies from $z = 11$ to 0. Our publicly available code identifies CGs using the 3D galaxy number density, the mass ratio of secondary+tertiary to the primary member, mass density in a surrounding shell, the relative velocities of candidate CG members, and a minimum CG membership of three. We adopt "default" values for the first three criteria, representing the observed population of Hickson CGs at $z = 0$. The percentage of non-dwarf galaxies ($M > 5 \times 10^{8}h^{-1}\ M_{\odot}$) in CGs peaks near $z \sim 2$ for the default set, and between $z \sim 1 - 3$ for other parameter sets. This percentage declines rapidly at higher redshifts ($z \gtrsim 4$), consistent with the galaxy population as a whole being dominated by low-mass galaxies excluded from this analysis. According to the most liberal criteria, $\lesssim 3\%$ of non-dwarf galaxies are members of CGs at the redshift where the CG population peaks. Our default criteria result in a population of CGs at $z < 0.03$ with number densities and sizes consistent with Hickson CGs. Tracking identified CG galaxies and merger products to $z = 0$, we find that $\lesssim 16\%$ of non-dwarf galaxies have been CG members at some point in their history. Intriguingly, the great majority ($96\%$) of $z = 2$ CGs have merged to a single galaxy by $z= 0$. There is a discrepancy in the velocity dispersions of Millennium Simulation CGs compared to those in observed CGs, which remains unresolved.

## Full text

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## Figures

15 figures with captions in the complete paper: https://tomesphere.com/paper/1901.09041/full.md

## References

65 references — full list in the complete paper: https://tomesphere.com/paper/1901.09041/full.md

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Source: https://tomesphere.com/paper/1901.09041