English

Morphology parameters: substructure identification in X-ray galaxy clusters

Cosmology and Nongalactic Astrophysics 2015-03-11 v1

Abstract

In recent years multi-wavelength observations have shown the presence of substructures related to merging events in a high fraction of galaxy clusters. Clusters can be roughly grouped into two categories -- relaxed and non-relaxed -- and a proper characterisation of the dynamical state of these systems is of crucial importance both for astrophysical and cosmological studies. In this paper we investigate the use of a number of morphological parameters (Gini, M20M_{20}, Concentration, Asymmetry, Smoothness, Ellipticity and Gini of the second order moment, GMG_{M}) introduced to automatically classify clusters as relaxed or dynamically disturbed systems. We apply our method to a sample of clusters at different redshifts extracted from the {\it Chandra} archive and we investigate possible correlations between morphological parameters and other X-ray gas properties. We conclude that a combination of the adopted parameters is a very useful tool to properly characterise the X-ray cluster morphology. According to our results three parameters -- Gini, M20M_{20} and Concentration -- are very promising for identifying cluster mergers. The Gini coefficient is a particularly powerful tool, especially at high redshift, being independent from the choice of the position of the cluster centre. We find that high Gini (>> 0.65), high Concentration (>> 1.55) and low M20M_{20} (<< -2.0) values are associated with relaxed clusters, while low Gini (<< 0.4), low Concentration (<< 1.0) and high M20M_{20} (>> -1.4) characterise dynamically perturbed systems. We also estimate the X-ray cluster morphological parameters in the case of {\it radio loud} clusters. In excellent agreement with previous analyses we confirm that diffuse intracluster radio sources are associated with major mergers.

Keywords

Cite

@article{arxiv.1411.6525,
  title  = {Morphology parameters: substructure identification in X-ray galaxy clusters},
  author = {Viral Parekh and Kurt van der Heyden and Chiara Ferrari and Garry Angus and Benne Holwerda},
  journal= {arXiv preprint arXiv:1411.6525},
  year   = {2015}
}

Comments

31 pages, 20 figures; accepted for publication in A&A

R2 v1 2026-06-22T07:10:09.949Z