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Статья

CONSTRAINING EMISSION MODELS OF LUMINOUS BLAZAR SOURCES

M. SikoraNicolaus Copernicus Astronomical Center, Bartycka 18, 00-716 Warsaw, PolandŁ. StawarzAstronomical Observatory, Jagiellonian University, ul. Orla 171, 30-244 Kraków, PolandR. ModerskiNicolaus Copernicus Astronomical Center, Bartycka 18, 00-716 Warsaw, PolandKrzysztof NalewajkoNicolaus Copernicus Astronomical Center, Bartycka 18, 00-716 Warsaw, PolandG. M. MadejskiStanford Linear Accelerator Center, 2575 Sand Hill Road, Menlo Park, CA 94025, USA
2009en
ABI

Аннотация

Many luminous blazars which are associated with quasar-type active galactic nuclei display broad-band spectra characterized by a large luminosity ratio of their high-energy (γ-ray) and low-energy (synchrotron) spectral components. This large ratio, reaching values up to 100, challenges the standard synchrotron self-Compton models by means of substantial departures from the minimum power condition. Luminous blazars have also typically very hard X-ray spectra, and those in turn seem to challenge hadronic scenarios for the high energy blazar emission. As shown in this paper, no such problems are faced by the models which involve Comptonization of radiation provided by a broad-line-region, or dusty molecular torus. The lack or weakness of bulk Compton and Klein-Nishina features indicated by the presently available data favors production of γ-rays via up-scattering of infrared photons from hot dust. This implies that the blazar emission zone is located at parsec-scale distances from the nucleus, and as such is possibly associated with the extended, quasi-stationary reconfinement shocks formed in relativistic outflows. This scenario predicts characteristic timescales for flux changes in luminous blazars to be days/weeks, consistent with the variability patterns observed in such systems at infrared, optical and γ-ray frequencies. We also propose that the parsec-scale blazar activity can be occasionally accompanied by dissipative events taking place at sub-parsec distances and powered by internal shocks and/or reconnection of magnetic fields. These could account for the multiwavelength intra-day flares occasionally observed in powerful blazars sources.

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