Accretion Disk Model of Short-Timescale Intermittent Activity in Young Radio Sources

3); Agnieszka Janiuk (1); Aneta Siemiginowska (2); Blazej Nikiel-Wroczynski (1; Bozena Czerny (1); Cambridge (3) Jagiellonian University; Cosmology; Cracow (4) Kavli Institute for Particle Astrophysics; Lukasz Stawarz (4) ((1) Copernicus Astronomical Center; Stanford University)

arxiv: 0903.3940 · v1 · pith:YYJUYLTQnew · submitted 2009-03-23 · 🌌 astro-ph.CO

Accretion Disk Model of Short-Timescale Intermittent Activity in Young Radio Sources

Bozena Czerny (1) , Aneta Siemiginowska (2) , Agnieszka Janiuk (1) , Blazej Nikiel-Wroczynski (1 , 3) , Lukasz Stawarz (4) ((1) Copernicus Astronomical Center , Warsaw (2) Harvard-Smithsonian Center for Astrophysics , Cambridge (3) Jagiellonian University

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Cracow (4) Kavli Institute for Particle Astrophysics Cosmology Stanford University)

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keywords sourcesradioaccretionactiveactivitydiskgalaxiesintermittent

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We associate the existence of short-lived compact radio sources with the intermittent activity of the central engine caused by a radiation pressure instability within an accretion disk. Such objects may constitute a numerous sub-class of Giga-Hertz Peaked Spectrum sources, in accordance with the population studies of radio-loud active galaxies, as well as detailed investigations of their radio morphologies. We perform the model computations assuming the viscosity parametrization as proportional to a geometrical mean of the total and gas pressure. The implied timescales are consistent with the observed ages of the sources. The duration of an active phase for a moderate accretion rate is short enough (< 10^3-10^4 years) that the ejecta are confined within the host galaxy and thus these sources cannot evolve into large size radio galaxies unless they are close to the Eddington limit.

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