The heating mechanism for the warm/cool dust in powerful, radio-loud AGN

Show full item record

Title: The heating mechanism for the warm/cool dust in powerful, radio-loud AGN
Author: Tadhunter, Clive; Dicken, D.; Holt, J.; Inskip, K.; Morganti, Raffaella; Axon, David; Buchanan, Catherine; Delgado, R.; Barthel, Peter; van Bemmel, I.
Abstract: The uncertainty surrounding the nature of the heating mechanism for the dust that emits at mid- to far-IR (MFIR) wavelengths in active galaxies limits our understanding of the links between active galactic nuclei (AGN) and galaxy evolution, as well as our ability to interpret the prodigious infrared and submm emission of some of the most distant galaxies in the Universe. Here we report deep Spitzer observations of a complete sample of powerful, intermediate redshift (0.05 < z < 0.7) radio galaxies and quasars. We show that AGN power, as traced by [OIII] 5007 emission, is strongly correlated with both the mid-IR (24μm) and the far-IR (70μm) luminosities, however, with increased scatter in the 70μm correlation. A major cause of this increased scatter is a group of objects that falls above the main correlation and displays evidence for prodigious recent star formation activity at optical wavelengths, along with relatively cool MFIR colours. These results provide evidence that illumination by the AGN is the primary heating mechanism for the dust emitting at both 24 and 70μm, with starbursts dominating the heating of the cool dust in only 20 – 30% of objects. This implies that powerful AGN are not always accompanied by the type of luminous starbursts that are characteristic of the peak of activity in major gas-rich mergers.
Description: Also archived in: arXiv:astro-ph/0703790 v1 Mar 2007
Record URI: http://hdl.handle.net/1850/7186
Date: 2007-05-20

Files in this item

Files Size Format View
DAxonArticle05-20-2007.pdf 144.8Kb PDF View/Open

The following license files are associated with this item:

This item appears in the following Collection(s)

Show full item record

Search RIT DML


Advanced Search

Browse