Abstract
[Abridged] We present ISO far-infrared (IR) observations of 21 hard X-ray selected AGN from the HEAO-1 A2 sample. We compare the far-IR to X-ray spectral energy distributions (SEDs) of this sample with various radio and optically selected AGN samples. The hard-X-ray selected sample shows a wider range of optical/UV shapes extending to redder near-IR colors. The bluer objects are Seyfert 1s, while the redder AGN are mostly intermediate or type 2 Seyferts. This is consistent with a modified unification model in which the amount of obscuring material increases with viewing angle and may be clumpy. Such a scenario, already suggested by differing optical/near-IR spectroscopic and X-ray AGN classifications, allows for different amounts of obscuration of the continuum emission in different wavebands and of the broad emission line region which results in a mixture of behaviors for AGN with similar optical emission line classifications. The resulting limits on the column density of obscuring material through which we are viewing the redder AGN are 100 times lower than for the standard optically thick torus models. The resulting decrease in optical depth of the obscuring material allows the AGN to heat more dust at larger radial distances. We show that an AGN-heated, flared, dusty disk with mass 10^9 solar and size of few hundred pc is able to generate optical-far-IR SEDs which reproduce the wide range of SEDs present in our sample with no need for an additional starburst component to generate the long-wavelength, cooler part of the IR continuum.
Highlights
Active galactic nuclei (AGNs) are among the broadest wave-band emission sources in nature, producing significant flux over a span more than 9 decades in frequency, from radio to X-rays and beyond (Elvis et al 1994)
We present the far-infrared observations of 21 hard X-ray–selected AGNs from the HEAO 1 A2 sample observed with Infrared Space Observatory (ISO)
We have studied the IR–X-ray properties of 21 HEAO 1 A2 AGNs
Summary
Active galactic nuclei (AGNs) are among the broadest wave-band emission sources in nature, producing significant flux over a span more than 9 decades in frequency, from radio to X-rays and beyond (Elvis et al 1994). Complementary Infrared Space Observatory (ISO) AGN observing programs have opened up new wavelength windows in the far-IR as well as improving the spatial resolution and sampling at shorter wavelengths: the ISO European Central Quasar Program (Haas et al 1998, 2000) and the NASA/ISO Key Project on AGNs, discussed . These observations directly measure the far-IR spectral slopes in low- and moderate-redshift AGNs and provide better constraints on the emission mechanisms throughout the IR region. The current sample provides an improved estimate of the range of SEDs present in the AGN population as a whole as well as an estimate of the fraction of the population missing from other surveys
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