Extended, Dusty Star Formation Fueled by a Residual Cooling Flow in the Cluster of Galaxies Sersic 159-03

McDonald, M. and Werner, Norbert and Oonk, J. B. R. and Veilleux, S. (2015) Extended, Dusty Star Formation Fueled by a Residual Cooling Flow in the Cluster of Galaxies Sersic 159-03. ASTROPHYSICAL JOURNAL, 804 (1). ISSN 1538-4357

Preview

Text 1411.2604.pdf Available under License Creative Commons Attribution. Download (3MB) | Preview

Abstract

While the cooling of the hot intracluster medium (ICM) in the cores of galaxy clusters is mostly counteracted by heating from the central active galactic nucleus (AGN), the balance is not perfect. This can lead to residual cooling flows and low-level star formation, the physics of which is not well understood. Here we present a detailed study of the residual cooling flow in the center of the low mass galaxy cluster Sersic 159-03 (A S1101; z = 0.058) using far-ultraviolet imaging from the Hubble Space Telescope and far-IR (FIR) spectroscopy and photometry from the Herschel Space Observatory, along with a wealth of archival data. We detect extended emission at UV, FIR, and [C II], indicating a star formation rate of similar to 1-3 M-circle dot yr(-1), depending on the indicator and assumptions made. The most recently formed stars (as indicated by high H alpha/UV ratios) appear spatially coincident with the lowest entropy ICM. We speculate that this low-entropy gas has been displaced by the central AGN similar to 7.5 kpc north of the cD galaxy. These data suggest that the displacement of the cooling core from the direct vicinity of the central AGN can temporarily break the feedback cycle and lead to cooling and star formation that is offset from the center of the galaxy. We find an abundance (similar to 10(7) M-circle dot) of cold (20 K) dust in the center of the cluster and a second FIR peak similar to 30 kpc to the north of the central galaxy. If confirmed to be associated with the cooling filaments, this would be the most extended complex of dust yet found in a cool core cluster.

Actions (login required)

Edit Item