Correlations Between the Development of a Flare in the Blazar 3C 454.3 in the Radio and Optical

Radio and optical data are used to analyze the development of the flare in the blazar 3C 454.3 observed in 2004-2007. A detailed correspondance between the optical and radio flares is established, with a time delay that depends on the observing frequency. The variation of the delay of the radio Hare relative to the optical flare is opposite to the dispersion delay expected for the propagation of radiation in the interstellar medium, testifying to an intrinsic origin for the observed outburst. Small-scale flux variations on time intervals of 5-10 days in the millimeter and optical are also correlated, with a time delay of about ten months. This may provide evidence for a single Source generating the radiation at all wavelengths. Rapid flux fluctuations in the radio and optical that are correlated with the indicated time delays could be associated with inhomogeneities in the accretion disk. Detailed studies of the flux variations of Active Galactic Nuclei (AGN) can be used to analyze the structure of the accretion disk. A model for the energy release in AGN that is not associated purely with accretion onto supermassive black holes is proposed. As is the case for other active members of the AGN family, estimates of the lifetime of the binary blackhole system in 3C 454.3 Suggest that this object is in a stage of its evolution that is fairly close to the coalescence of its black holes. The energy that is released as the companion of the central black hole loses orbital angular momentum is sufficient to explain the observed AGN phenomena. The source of primary energy release could be heating of the gas behind shock fronts that. arise due to the friction between the companion black hole and the ambient gaseous medium. The orbit of the companion Could be located at the periphery of the accretion disk of the central body at its apocenter and Plunge more deeply into the accretion disk at its pericenter, inducing flares at all wavelengths. Energy-release parameters Such as the temperature and density of the heated gas are estimated for 3C 454.3. The model considered assumes omnidirectional radiation of the medium in the presence of a magnetic held. The radiation corresponding to the minimum flux level (base level) Could represent omnidirectional radiation due to the orbit of the moving companion. The fraction of the energy that is transferred to directed jets is small, comprising 1-2% of the total energy released clue to the loss of orbital angular momentum by the companion.