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The nature of the near-infrared core source in 3C 433

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posted on 2023-06-08, 08:47 authored by Edgar A Ramirez, C N Tadhunter, D Axon, D Batcheldor, S Young, C Packham, W B Sparks
We report the analysis of near-infrared (near-IR) imaging, polarimetric and spectroscopic observations of the powerful radio galaxy 3C 433 (z = 0.1016), obtained with the Hubble Space Telescope (HST) and the United Kingdom Infrared Telescope. The high spatial resolution of HST allows us to study the near-nuclear regions of the galaxy (<1 kpc). In line with previous observations, we find that 3C 433 has an unresolved core source that is detected in all near-IR bands, but dominates over the host galaxy emission at 2.05 mu m. Our analysis reveals ( 1) the presence of a dust lane aligned close to the perpendicular [position angle (PA) = 70 degrees +/- 5 degrees] to the inner radio jet axis ( PA = -12 degrees +/- 2 degrees), ( 2) a steep slope to the near-IR spectral energy distribution (SED; alpha = 5.8 +/- 0.1; F-nu proportional to nu(-alpha)), ( 3) an apparent lack of broad permitted emission lines at near-IR wavelengths, in particular the absence of a broad Pa alpha emission line and ( 4) high intrinsic polarization for the unresolved core nuclear source (8.6 +/- 1 per cent), with an E-vector perpendicular ( PA = 83 degrees.0 +/- 2 degrees.3) to the inner radio jet. Using five independent techniques, we determine an extinction to the compact core source in the range 3 < A(V) < 67 mag. An analysis of the long wavelength SED rules out a synchrotron origin for the high near-IR polarization of the compact core source. Therefore, scattering and dichroic extinction are plausible polarizing mechanisms, although in both of these cases the broad permitted lines from the active galactic nuclei are required to have a width > 10(4) km s(-1) (full width at half-maximum) to escape detection in our near-IR spectrum. Dichroic extinction is the most likely polarization mechanism because it is consistent with the various available extinction estimates. In this case, a highly ordered, coherent toroidal magnetic field must be present in the obscuring structure close to the nucleus.

History

Publication status

  • Published

File Version

  • Published version

Journal

Monthly Notices of the Royal Astronomical Society

ISSN

0035-8711

Publisher

Wiley-Blackwell

Issue

4

Volume

399

Page range

2165-2171

Department affiliated with

  • Physics and Astronomy Publications

Full text available

  • Yes

Peer reviewed?

  • Yes

Legacy Posted Date

2012-02-06

First Open Access (FOA) Date

2016-03-22

First Compliant Deposit (FCD) Date

2016-11-17

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