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A near-infrared view of the 3CR: properties of hosts and nuclei†

Published online by Cambridge University Press:  01 August 2006

David Floyd
Affiliation:
STScI, USA email: [email protected]
Marco Chiaberge
Affiliation:
STScI, USA email: [email protected]
Eric S. Perlman
Affiliation:
UMBC, USA
Bill Sparks
Affiliation:
STScI, USA email: [email protected]
F. Duccio Macchetto
Affiliation:
STScI, USA email: [email protected]
Juan Madrid
Affiliation:
STScI, USA email: [email protected]
Stefi Baum
Affiliation:
RIT, USA
Chris O'Dea
Affiliation:
RIT, USA
David Axon
Affiliation:
RIT, USA
Alice Quillen
Affiliation:
University of Rochester, NY, USA
Alessandro Capetti
Affiliation:
OA Torino, Italy
George Miley
Affiliation:
Leiden Observatory, The Netherlands
Stefano Tinarelli
Affiliation:
STScI, USA email: [email protected]
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Abstract

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The 3CR catalogue provides a statistical sampling of the most powerful radio galaxies out to z ∼ 0.3. Over the decade and a half of Hubble observations we have amassed a major multi-wavelength dataset on these sources, discovering amongst other things, new jets, hotspots, dust disks, and faint point-like nuclei. We present here the results of our latest snapshot survey, a near-complete sampling of the 3CR host galaxies at z < 0.3 in the near-IR (H-band). This un-extinguished view of the host galaxies has provided us with an accurate measure of the stellar/spheroid masses of the sources, and an unbiased view of their morphologies. We show that they exhibit an identical Kormendy relation to nearby QSO's and the massive Elliptical population, but are distinct from the Brightest Cluster Members, and mergers. We find that while a few sources exhibit signs of a recent or impending major merger, many more sources have remnants consistent with a gas-rich minor merger in their recent history. We detect unresolved nuclear sources in most (∼80%) of FRI, with their IR luminosities correlating linearly with radio core power. This implies that the IR nuclei are synchrotron radiation produced at the base of the relativistic jet, and confirms that no infrared (thermal) radiation in excess to synchrotron is present in FRIs, unlike in other classes of AGN.

Type
Contributed Papers
Copyright
Copyright © International Astronomical Union 2007

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