Mid-infrared dust in two nearby radio galaxies, NGC 1316 (Fornax A) and NGC 612 (PKS 0131-36)
Journal article, 2016

Context. Most radio galaxies are hosted by giant gas-poor ellipticals, but some contain significant amounts of dust, which is likely to be of external origin. Aims. In order to characterize the mid-IR properties of two of the most nearby and brightest merger-remnant radio galaxies of the Southern hemisphere, NGC 1316 (Fornax A) and NGC 612 (PKS 0131-36), we used observations with the Wide-field Infrared Survey Explorer (WISE) at wavelengths of 3.4, 4.6, 12 and 22 mu m and Spitzer mid-infrared spectra. Methods. By applying a resolution-enhancement technique, new WISE images were produced at angular resolutions ranging from 2 ''.6 to 5 ''.5. Global measurements were performed in the four WISE bands, and stellar masses and star-formation rates were estimated using published scaling relations. Two methods were used to uncover the distribution of dust, one relying on two-dimensional fits to the 3.4 mu m images to model the starlight, and the other one using a simple scaling and subtraction of the 3.4 mu m images to estimate the stellar continuum contribution to the emission in the 12 and 22 mu m bands. Results. The two galaxies differ markedly in their mid-IR properties. The 3.4 mu m brightness distribution can be well represented by the superposition of two Sersic models in NGC 1316 and by a Sersic model and an exponential disk in NGC 612. The WISE colors of NGC 1316 are typical of those of early-type galaxies; those of NGC 612 are in the range found for star-forming galaxies. From the 22 mu m luminosity, we infer a star-formation rate of similar to 0.7 M-circle dot yr(-1) in NGC 1316 and similar to 7 M-circle dot yr(-1) in NGC 612. Spitzer spectroscopy shows that the 7.7-to-11.3 mu m PAH line ratio is significantly lower in NGC 1316 than in NGC 612. The WISE images reveal resolved emission from dust in the central 1'-2' of the galaxies. In NGC 1316, the extra-nuclear emission coincides with two dusty regions NW and SE of the nucleus seen in extinction in optical images and where molecular gas is known to reside. In NGC 612 it comes from a warped disk. This suggests a recent infall onto NGC 1316 and disruption of one or several smaller gas-rich galaxies, but a smoother accretion in NGC 612. While the nucleus of NGC 1316 is currently dormant and the galaxy is likely to evolve into a passive elliptical, NGC 612 has the potential of growing a larger disk and sustaining an active nucleus. Conclusions. NGC 1316 and NGC 612 represent interesting challenges to models of formation and evolution of galaxies and AGNs.

galaxies:individual:NGC1316(FornaxA)–galaxies:ISM–galaxies:interactions–infrared:galaxies– galaxies: individual: NGC 612 (PKS 0131-36)

Author

B. D. Asabere

Ghana Atomic Energy Commission

University of Johannesburg

Chalmers, Earth and Space Sciences

Cathy Horellou

Chalmers, Earth and Space Sciences, Radio Astronomy and Astrophysics

T. H. Jarrett

University of Cape Town

H. Winkler

University of Johannesburg

Astronomy and Astrophysics

0004-6361 (ISSN) 1432-0746 (eISSN)

Vol. 592 A20 1-16 A20

Subject Categories

Astronomy, Astrophysics and Cosmology

Roots

Basic sciences

Infrastructure

Onsala Space Observatory

DOI

10.1051/0004-6361/201528047

More information

Latest update

9/21/2018