The Mass Assembly of Fossil Groups of Galaxies in the Millennium Simulation

TL;DR

This study uses the Millennium Simulation to analyze the formation and properties of fossil galaxy groups, finding they are early-forming, undisturbed systems with a higher fraction of mass assembled at high redshift, consistent with observations.

Contribution

It provides a detailed simulation-based analysis of fossil groups, matching observed space densities and predicting their prevalence in rich clusters, highlighting their early formation history.

Findings

Fossil groups have a space density close to observed estimates.

They are predominantly early-forming, undisturbed systems.

Fossils constitute about 3-4% of galaxy populations even in rich clusters.

Abstract

The evolution of present-day fossil galaxy groups is studied in the Millennium Simulation. Using the corresponding Millennium gas simulation and semi-analytic galaxy catalogues, we select fossil groups at redshift zero according to the conventional observational criteria, and trace the haloes corresponding to these groups backwards in time, extracting the associated dark matter, gas and galaxy properties. The space density of the fossils from this study is remarkably close to the observed estimates and various possibilities for the remaining discrepancy are discussed. The fraction of X-ray bright systems which are fossils appears to be in reasonable agreement with observation, and the simulations predict that fossil systems will be found in significant numbers (3-4% of the population) even in quite rich clusters. We find that fossils assemble a higher fraction of their mass at high redshift, compared to non-fossil groups, with the ratio of the currently assembled halo mass to final mass, at any epoch, being about 10 to 20% higher for fossils. This supports the paradigm whereby fossils represent undisturbed, early-forming systems in which large galaxies have merged to form a single dominant elliptical.