Astronomy and Astrophysics – Astrophysics
Scientific paper
2002-11-07
Mon.Not.Roy.Astron.Soc. 339 (2003) 1081
Astronomy and Astrophysics
Astrophysics
15 Pages, 8 ps figures, accepted for pubblication in MNRAS
Scientific paper
10.1046/j.1365-8711.2003.06255.x
The relation between accretion disc (thermal emission) and jet (non-thermal emission) in blazars is still a mystery as, typically, the beamed jet emission swamps the disc even in the ultraviolet band where disc emission peaks. In this paper we estimate the accretion disc component for 136 flat-spectrum radio quasars selected from the Deep X-ray Radio Blazar Survey. We do this by deriving the accretion disc spectrum from the mass and accretion rate onto the central black hole for each object, estimated using the emission line widths and the power emitted from the broad line region. We find that non-thermal emission dominates the optical/UV band of our sources. The thermal component, in fact, is, on average, ~ 15 per cent of the total and > 90 per cent of the objects in the sample have a thermal component < 0.5 of the total luminosity. We then estimate the integrated disc and kinetic jet powers and find that, on average, the disc luminosity is ~ 1 to 20 times the jet power (depending on the uncertainties in the estimation of the latter quantity). A comparison with previous, independent results favours a scenario in which jet and disk powers are of the same order of magnitude. Extraction of energy from a rotating black hole via the ``Blandford-Znajek'' mechanism fails to explain the estimated jet power in the majority of our sources. Finally, we find that the typical masses for our sources are ~ 5 10^8 solar masses and that, contrary to previous claims, about one quarter of our radio quasars have relatively small (< 3 10^8 solar masses) black hole mass.
D'Elia Valerio
Landt Hermine
Padovani Paolo
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