Bibcode
Reb, L.; Fernández-Ontiveros, J. A.; Prieto, M. A.; Dolag, K.
Bibliographical reference
Monthly Notices of the Royal Astronomical Society: Letters, Volume 478, Issue 1, p.L122-L126
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7
2018
Citations
7
Refereed citations
6
Description
We investigate the central sub-arcsec region of the low-luminosity
active galactic nucleusNGC 1052, using a high-angular resolution data
set that covers 10 orders of magnitude in frequency. This allows us to
infer the continuum emission within the innermost ˜17 pc around
the black hole to be of non-thermal, synchrotron origin and to set a
limit to the maximum contribution of a standard accretion disc. Assuming
the canonical 10 per cent mass-light conversion efficiency for the
standard accretion disc, its inferred accretion power would be too low
by one order of magnitude to account for the observed continuum
luminosity. We thus introduce a truncated accretion disc and derive a
truncation radius to mass-light conversion efficiency relation, which we
use to reconcile the inferred accretion power with the continuum
luminosity. As a result we find that a disc providing the necessary
accretion power must be truncated at rtr ≳ 26
rg, consistent with the inner radius derived from the
observations of the Fe Kα line in the X-ray spectrum of this
nucleus. This is the first time to derive a limit on the truncation
radius of the accretion disc from high-angular resolution data only.
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The Central PARSEC of Galaxies using High Spatial Resolution Techniques
PARSEC is a multi-wavelength investigation of the central PARSEC of the nearest galaxies. We work on black-hole accretion and its most energetic manifestations: jets and hot spots, and on its circumnuclear environment conditions for star formation. We resort to the highest available angular resolution observations from gamma-rays to the centimetre
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Prieto Escudero