The Kinetically Dominated Quasar 3C~418

Abstract

The existence of quasars that are kinetically dominated, where the jet kinetic luminosity, Q, is larger than the total (IR to X-ray) thermal luminosity of the accretion flow, Lbol, provides a strong constraint on the fundamental physics of relativistic jet formation. Since quasars have high values of Lbol by definition, only 10 kinetically dominated quasars (with Q/Lbol>1) have been found, where Q is the long term time averaged jet power. We use low frequency (151 MHz-1.66 GHz) observations of the quasar 3C\,418 to determine Q≈ 5.5 1.3 × 1046 ergs~s-1. Analysis of the rest frame ultraviolet spectrum indicates that this equates to 0.57 0.28 times the Eddington luminosity of the central supermassive black hole and Q/Lbol ≈ 4.8 3.1, making 3C\,418 one of the most kinetically dominated quasars found to date. It is shown that this maximal Q/Lbol is consistent with models of magnetically arrested accretion of jet production in which the jet production reproduces the observed trend of a decrement in the extreme ultraviolet continuum as the jet power increases. This maximal condition corresponds to an almost complete saturation of the inner accretion flow with vertical large scale magnetic flux (maximum saturation).