The Powerful Outburst in Hercules A

The radio source Hercules A resides at the center of a cooling flow cluster of galaxies at redshift z = 0.154. A Chandra X-ray image reveals a shock front in the intracluster medium (ICM) surrounding the radio source, about 160 kpc from the active galactic nucleus (AGN) that hosts it. The shock has a Mach number of 1.65, making it the strongest of the cluster-scale shocks driven by an AGN outburst found so far. The age of the outburst is 5.9 × 107 yr, its energy ~3 × 1061 ergs, and its mean power ~1.6 × 1046 ergs s-1. As for the other large AGN outbursts in cooling flow clusters, this outburst overwhelms radiative losses from the ICM of the Hercules A Cluster by a factor of ~100. It adds to the case that AGN outbursts are a significant source of preheating for the ICM. Unless the mechanical efficiency of the AGN in Hercules A exceeds 10%, the central black hole must have grown by more than 1.7 × 108 M☉ to power this one outburst.

[1]  R. Sunyaev,et al.  Cooling flows as a calorimeter of active galactic nucleus mechanical power , 2002 .

[2]  Formation of Cool Cores in Galaxy Clusters via Hierarchical Mergers , 2003, astro-ph/0302427.

[3]  An investigation of cooling flows and general cluster properties from an X-ray image deprojection analysis of 207 clusters of galaxies , 1997, astro-ph/9707269.

[4]  Ralf Bender,et al.  A Relationship between Nuclear Black Hole Mass and Galaxy Velocity Dispersion , 2000, astro-ph/0006289.

[5]  D. Harris,et al.  Observations of interaction between cluster gas and the radio lobes of Cygnus A. , 1994 .

[6]  E. Feigelson,et al.  Rings and wiggles in Hercules A , 1983, Nature.

[7]  J. Binney,et al.  Elliptical galaxy cooling flows without mass drop-out , 1993 .

[8]  W. Forman,et al.  Evolution of Buoyant Bubbles in M87 , 2000 .

[9]  D. A. Rafferty,et al.  A Systematic Study of Radio-induced X-Ray Cavities in Clusters, Groups, and Galaxies , 2004 .

[10]  Stefi A. Baum,et al.  Discovery of Ghost Cavities in the X-Ray Atmosphere of Abell 2597 , 2001 .

[11]  Andrew C. Fabian Cooling Flows in Clusters of Galaxies , 1994 .

[12]  C. Carilli,et al.  The heating of gas in a galaxy cluster by X-ray cavities and large-scale shock fronts , 2005, Nature.

[13]  S. Ettori,et al.  Chandra imaging of the complex X-ray core of the Perseus cluster , 2000, astro-ph/0007456.

[14]  A multiband study of Hercules A - II. Multifrequency Very Large Array imaging , 2003, astro-ph/0305600.

[15]  L. Feretti,et al.  BeppoSAX observation of Hercules A and MRC 0625-536 , 2000, astro-ph/0011455.

[16]  P. A. G. Scheuer,et al.  Models of Extragalactic Radio Sources with a Continuous Energy Supply from a Central Object , 1974 .

[17]  C. S. Crawford,et al.  A deep Chandra observation of the Perseus cluster: shocks and ripples , 2003, astro-ph/0306036.

[18]  C. Reynolds,et al.  X-Ray Signatures of Evolving Radio Galaxies , 1998, astro-ph/9801268.

[19]  Thermal Conduction in Clusters of Galaxies , 2001, astro-ph/0110567.

[20]  L. David,et al.  A Feedback Model for Radio Sources Fueled by Cooling Flows , 1997 .

[21]  J. Jernigan,et al.  High-Resolution X-Ray Spectroscopic Constraints on Cooling-Flow Models for Clusters of Galaxies , 2002, astro-ph/0210662.