The kinetic luminosity function and the jet production efficiency of growing black holes
Abstract
We derive the kinetic luminosity function for flat spectrum radio jets, using the empirical and theoretical scaling relation between jet power and radio core luminosity. The normalization for this relation is derived from a sample of flat spectrum cores in galaxy clusters with jet-driven X-ray cavities. The total integrated jet power at z=0 is Wtot ~ 3x1040 ergs/s/Mpc3. By integrating Wtot over red-shift, we determine the total energy density deposited by jets as etot ~ 2x1058 ergs/Mpc3. Both Wtot and etot are dominated by low luminosity sources. Comparing etot to the local black hole mass density rhoBH gives an average jet production efficiency of epsilonjet = ejet/rhoBHc2 ~ 3%. Since black hole mass is accreted mainly during high luminosity states, epsilonjet is likely much higher during low luminosity states.
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