Tidal Interactions and Mergers in Intermediate Redshift EDisCS Clusters
Abstract
We study the fraction of tidal interactions and mergers with well identified observability timescales () in group, cluster, and accompanying field galaxies and its dependence on redshift (), cluster velocity dispersion () and environment analyzing HST-ACS images and catalogs from the ESO Distant Cluster Survey (EDisCS). Our sample consists of 11 clusters, 7 groups, and accompanying field galaxies at . We derive using both a visual classification of galaxy morphologies and an automated method, the method. We calibrate this method using the visual classifications that were performed on a subset of our sample. We find marginal evidence for a trend between and , in that higher values correspond to higher . However, we also cannot rule out the null hypothesis of no correlation at higher than 68% confidence. No trend is present between and . We find that shows suggestive peaks in groups, and tentatively in clusters at , implying that gets boosted in these intermediate density environments. However, our analysis of the local densities of our cluster sample does not reveal a trend between and density, except for a potential enhancement at the very highest densities. We also perform an analysis of projected radius-velocity phase space for our cluster members. Our results reveal that tidal interactions and mergers (TIM), and undisturbed galaxies only have a 6% probability of having been drawn from the same parent population in their velocity distribution and 37% in radii, in agreement with the modest differences obtained in at the clusters.
Keywords
Cite
@article{arxiv.1810.01430,
title = {Tidal Interactions and Mergers in Intermediate Redshift EDisCS Clusters},
author = {Sinan Deger and Gregory Rudnick and Kshitija Kelkar and Alfonso Aragón-Salamanca and Vandana Desai and Jennifer M. Lotz and Pascale Jablonka and John Moustakas and Dennis Zaritsky},
journal= {arXiv preprint arXiv:1810.01430},
year = {2018}
}
Comments
16 figures, 4 tables. Accepted for publication in the Astrophysical Journal