Exploring the Midinfrared SEDs of Six AGN Dusty Torus Models. II. The Data
Abstract
This is the second in a series of papers devoted to exploring a set of six dusty models of active galactic nuclei (AGN) with available spectral energy distributions. These models are the smooth torus by Fritz et al., the clumpy torus by Nenkova et al., the clumpy torus by Hönig & Kishimoto, the twophase torus by Siebenmorgen et al., the twophase torus by Stalevski et al., and the wind model by Hönig & Kishimoto. The first paper explores discrimination among models and the parameter restriction using synthetic spectra. Here we perform spectral fitting of a sample of 110 AGN drawn from the Swift/BAT survey with Spitzer/IRS spectroscopic data. The aim is to explore which is the model that describes better the data and the resulting parameters. The clumpy winddisk model by Hönig & Kishimoto provides good fits for ∼50% of the sample, and the clumpy torus model by Nenkova et al. is good at describing ∼30% of the objects. The winddisk model by Hönig & Kishimoto is better for reproducing the midinfrared spectra of type 1 Seyferts (with 60% of the type 1 Seyferts well reproduced by this model compared to the 10% well represented by the clumpy torus model by Nenkova et al.), while type 2 Seyferts are equally fitted by both models (roughly 40% of the type 2 Seyferts). Large residuals are found irrespective of the model used, indicating that the AGN dust continuum emission is more complex than predicted by the models or that the parameter space is not well sampled. We found that all the resulting parameters for our AGN sample are roughly constrained to 10%20% of the parameter space. Contrary to what is generally assumed, the derived outer radius of the torus is smaller (reaching up to a factor of ∼5 smaller for 10 pc tori) for the smooth torus by Fritz et al. and the twophase torus by Stalevski et al. than the one derived from the clumpy torus by Nenkova et al. Covering factors and lineofsight viewing angles strongly depend on the model used. The total dust mass is the most robust derived quantity, giving equivalent results for four of these models.
 Publication:

The Astrophysical Journal
 Pub Date:
 October 2019
 DOI:
 10.3847/15384357/ab3e4f
 arXiv:
 arXiv:1908.11389
 Bibcode:
 2019ApJ...884...11G
 Keywords:

 Active galactic nuclei;
 Infrared astronomy;
 Dust continuum emission;
 16;
 786;
 412;
 Astrophysics  Astrophysics of Galaxies
 EPrint:
 Accepted for publication in ApJ. This paper is accompanied by Paper I