The effect of cluster dynamical state on ram-pressure stripping

TL;DR

This study investigates how the dynamical state of galaxy clusters influences ram-pressure stripping in galaxies, finding only mild, statistically inconclusive evidence of increased stripping during cluster mergers.

Contribution

First homogeneous analysis of the impact of cluster dynamical states on ram-pressure stripping using a large, multi-wavelength cluster sample.

Findings

No clear correlation between ram-pressure stripping candidates and cluster dynamical proxies.

A mild, statistically inconclusive increase in stripping in merging clusters.

Larger surveys are needed to confirm the effects.

Abstract

Theoretical and observational studies have suggested that ram-pressure stripping by the intracluster medium can be enhanced during cluster interactions, boosting the formation of the "jellyfish" galaxies. In this work, we study the incidence of galaxies undergoing ram-pressure stripping in 52 clusters of different dynamical states. We use optical data from the WINGS/OmegaWINGS surveys and archival X-ray data to characterise the dynamical state of our cluster sample, applying eight different proxies. We then compute the number of ram-pressure stripping candidates relative to the infalling population of blue late-type galaxies within a fixed circular aperture in each cluster. We find no clear correlation between the fractions of ram-pressure stripping candidates and the different cluster dynamical state proxies considered. These fractions also show no apparent correlation with cluster mass. To construct a dynamical state classification closer to a merging "sequence", we perform a visual classification of the dynamical states of the clusters, combining information available in optical, X-ray, and radio wavelengths. We find a mild increase in the RPS fraction in interacting clusters with respect to all other classes (including post-mergers). This mild enhancement could hint at a short-lived enhanced ram-pressure stripping in ongoing cluster mergers. However, our results are not statistically significant due to the low galaxy numbers. We note this is the first homogeneous attempt to quantify the effect of cluster dynamical state on ram-pressure stripping using a large cluster sample, but even larger (especially wider) multi-wavelength surveys are needed to confirm the results.