The Jet-Disk Coupling of Seyfert Galaxies from a Complete Hard X-ray Sample

Abstract

We analyze the jet-disk coupling for different subsamples from a complete hard X-ray Seyfert sample to study the coupling indices and their relation to accretion rate. The results are: (1) the power-law coupling index ranges from nearly unity (linear correlation) for radio-loud Seyferts to significantly less than unity for radio-quiet ones. This declining trend of coupling index also holds from larger sources to compact ones; (2) the Seyferts with intermediate to high accretion rate (Eddington ratio λ 0.001 to 0.3) show a linear jet-disk coupling, but it shallows from near to super Eddington (λ 0.3 to 10), and the former is more radio loud than the latter; (3) the Seyfert 1s are slightly steeper than the Seyfert 2s, in the jet-disk correlation. In the linear coupling regime, the ratio of jet efficiency to radiative efficiency (η/) is nearly invariant, but in low accretion or super accretion regime, η/ varies with λ in our model. We note that a radio-active cycle of accretion-dominated active galactic nuclei would be: from a weaker jet-disk coupling in λ<0.001 for low luminosity Seyferts, to a linear coupling in 0.001<λ<0.3 for radio-loud luminous Seyferts and powerful radio galaxies/quasars, and to a weaker coupling in 0.3<λ<10 ones.