Radio continuum polarimetric imaging of high redshift radio galaxies

Details Radio continuum polarimetric imaging of high redshift radio galaxies Radio continuum polarimetric imaging of high redshift radio galaxies

Feb 1994

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1994aj....107..480c&link_type=abstract

Astronomical Journal (ISSN 0004-6256), vol. 107, no. 2, p. 480-493

Astronomy and Astrophysics

Astrophysics

58

Active Galactic Nuclei, Astronomical Polarimetry, Continuums, Extraterrestrial Radio Waves, Imaging Techniques, Polarization (Waves), Radio Astronomy, Radio Emission, Radio Galaxies, Radio Spectra, Red Shift, Star Formation, Astronomical Spectroscopy, Cooling Flows (Astrophysics), Cosmic X Rays, Gravitational Lenses, Radio Jets (Astronomy), Spectrum Analysis, Stellar Luminosity

Scientific paper

Multifrequency images of total and polarized radio continuum emission from the two high redshift radio galaxies 0902+343 (z = 3.40) and 0647+415 (4C 41.17, z = 3.80) are presented. These images represent the most sensitive polarimetric study of high redshift ratio galaxies to date. The emission from both galaxies is substantially polarized, up to 30% in some regions, and both sources sit behind deep 'Faraday screens,' producing large rotation measures, over 103 rad/sq. m in magnitude, and large rotation measure gradients across the sources. Such large rotation measures provide further evidence that high redshift radio galaxies are situated in very dense environments. Drawing the analogy to a class of low redshift powerful radio galaxies with similarly large rotation measures, we suggest that 0902+343 and 0647+415 are situated at the centers of dense, x-ray 'colling flow' clusters, and that the cluster gas is substantially magnetized. The remarkable similarity between the optical and radio morphologies of 0647+415 on scales as small as 0.1 sec is presented. We consider, and reject, both synchrotron and inverse Compton radiation as possible sources of the optical emission. We also consider both scattering of light out of a 'cone' of radiation from an obscured nucleus, and jet-induced star formation, and find that both models encounter difficulties in explaining this remarkably close radio-optical alignment. High resolution spectral index images reveal compact, flat spectrum components in both sources. We suggest that these components are the active nuclei of the galaxies. Lastly, high resolution images of 0902+343 show that the southernmost component forms a 'ring' of 0.2 sec radius. We discuss the possibility that this ring is the result of gravitational lensing, along the lines proposed by Kochanek & Lawrence (1990).

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