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Evolution of accretion disks around massive black holes: constraints from the demography of active galactic nuclei

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arxiv astro-ph/0502499 v2 pith:2A73XTWE submitted 2005-02-23 astro-ph

Evolution of accretion disks around massive black holes: constraints from the demography of active galactic nuclei

classification astro-ph
keywords agnsaccretiondiskseddingtonactivearoundblackdemography
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Observations have shown that the Eddington ratios (the ratio of the bolometric luminosity to the Eddington luminosity) in QSOs/active galactic nuclei (AGNs) cover a wide range. In this paper we connect the demography of AGNs obtained by the Sloan Digital Sky Survey with the accretion physics around massive black holes and propose that the diversity in the Eddington ratios is a natural result of the long-term evolution of accretion disks in AGNs. The observed accretion rate distribution of AGNs (with host galaxy velocity dispersion sigma~70-200 km/s) in the nearby universe (z<0.3) is consistent with the predictions of simple theoretical models in which the accretion rates evolve in a self-similar way. We also discuss the implications of the results for the issues related to self-gravitating disks, coevolution of galaxies and QSOs/AGNs, and the unification picture of AGNs.

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