Astronomy and Astrophysics – Astrophysics
Scientific paper
2004-11-15
Astronomy and Astrophysics
Astrophysics
18 pages, 17 figures, accepted for publication in A&A
Scientific paper
10.1051/0004-6361:20041831
Radio loud active galactic nuclei present a remarkable variety of signs indicating the presence of periodical processes possibly originating in binary systems of supermassive black holes, in which orbital motion and precession are ultimately responsible for the observed broad-band emission variations, as well as for the morphological and kinematic properties of the radio emission on parsec scales. This scenario, applied to the quasar 3C345, explains the observed variations of radio and optical emission from the quasar, and reproduces the structural variations observed in the parsec-scale jet of this object. The binary system in 3C345 is described by two equal-mass black holes with masses of approximately 7*10^8 solar masses separated by ~0.33 pc and orbiting with a period of ~480 yr. The orbital motion induces a precession of the accretion disk around the primary black hole, with a period of ~2570 yr. The jet plasma is described by a magnetized, relativistic electron-positron beam propagating inside a wider and slower electron-proton jet. The combination of Alfven wave perturbations of the beam, the orbital motion of the binary system and the precession of the accretion disk reproduces the variability of the optical flux and evolution of the radio structure in 3C345. The timescale of quasi-periodic flaring activity in 3C345 is consistent with typical disk instability timescales. The present model cannot rule out a small-mass orbiter crossing the accretion disk and causing quasi-periodic flares.
Lobanov Andrei P.
Roland Jérémie
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