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26 April 2024 |
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The spectral energy distribution of the central parsec-scaled region of AGN | | M. A. Prieto
; J. Reunanen
; Th. Beckert
; K. R. W. Tristram
; N. Neumayer
; J. A. Fernandez
; J. Acosta
; | | Date: |
6 Feb 2007 | | Abstract: | Genuine spectral energy distributions (SEDs) of the central few parsec of the nearest and brightest active galaxies in the Southern Hemisphere are presented. They are compiled from very high spatial resolution observations in the radio (VLBA), the infrared (using adaptive optics and interferometry) and the optical (HST). The SEDs are characterized by two main emission bumps peaking in the X-rays and in the infrared respectively, as it is known from optically obscured galactic nuclei. Yet, the SED shape of the IR largely departs from the one derived from large aperture data. It reveals two new features: (1) a very sharp decay at wavelengths shortward of 2 $mu$m, plausibly a consequence of the heavy extinction towards the core region and (2) a flattening in the 10-20 $mu$m range as well as a downturn toward longer wavelengths. Accordingly, the true bolometric luminosity of these core regions turns out to be about an order of magnitude lower than previously estimated on the basis of IRAS/ISO data. These findings indicate that large aperture IR data are largely dominated by the contribution of the host galaxy. They warn against over-interpretations of IR/X-ray and IR/optical correlations based on large aperture IR data which are used to differentiate AGN from normal galaxy populations.
The new derived IR bolometric luminosities still exceed the output energy measured in the high energies by factors from 3 to 60. With the expectation that both luminosities should be comparable within an order of magnitude, the reduced factors between both suggests that the derived IR luminosities are getting closer to the genuine power output of the core.
. | | Source: | arXiv, astro-ph/0702160 | | Services: | Forum | Review | PDF | Favorites | |
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