A relationship between AGN jet power and radio power

Abstract

Using Chandra X-ray and VLA radio data, we investigate the scaling relationship between jet power, Pjet, and synchrotron luminosity, Prad. We expand the sample presented in Birzan et al. (2008) to lower radio power by incorporating measurements for 21 gEs to determine if the Birzan et al. (2008) Pjet-Prad scaling relations are continuous in form and scatter from giant elliptical galaxies (gEs) up to brightest cluster galaxies (BCGs). We find a mean scaling relation of Pjet approximately 5.8x1043 (Prad/1040)(0.70) erg/s which is continuous over ~6-8 decades in Pjet and Prad with a scatter of approximately 0.7 dex. Our mean scaling relationship is consistent with the model presented in Willott et al. (1999) if the typical fraction of lobe energy in non-radiating particles to that in relativistic electrons is > 100. We identify several gEs whose radio luminosities are unusually large for their jet powers and have radio sources which extend well beyond the densest parts of their X-ray halos. We suggest that these radio sources are unusually luminous because they were unable to entrain appreciable amounts of gas.