Proceedings of The Riddle of Cooling Flows in Galaxies
and Clusters of Galaxies
For a PDF version of the article, click
here.
May 31 - June 4, 2003, Charlottesville, Virginia, USA
Ed. T. H. Reiprich, J. C. Kempner, & N. Soker
Abstract. Recent observations of the interactions between radio sources and the X-ray-emitting gas in cooling flows in the cores of clusters of galaxies are reviewed. The radio sources inflate bubbles in the X-ray gas, which then rise buoyantly outward in the clusters transporting energy to the intracluster medium (ICM). The bright rims of gas around the radio bubbles are cool, rather than hot, and do not show signs of being strongly shocked. Energy deposited into the ICM over the lifetime of a cluster through several outbursts of a radio source helps to account for at least some of the gas that is missing in cooling flows at low temperatures.
Table of Contents
INTRODUCTION
Chandra OBSERVATIONS OF BUBBLES AND
TEMPERATURE STRUCTURE
EVIDENCE OF SHOCK HEATING IN GALAXIES
PRESSURE IN X-RAY SHELLS
BUOYANTLY RISING BUBBLES
INTERMEDIATE CASES
ENTRAINMENT OF COOL GAS
CAN RADIO SOURCES OFFSET THE COOLING IN COOLING
FLOWS?
CONCLUSIONS
REFERENCES
