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VLBA polarimetric monitoring of 3C 111

Beuchert T, Kadler M, Perucho M, Grossberger C, Schulz R, Agudo I, Casadio C, Gomez JL, Gurwell M, Homan D, Kovalev YY, Lister ML, Markoff S, Molina SN, Pushkarev AB, Ros E, Savolainen T, Steinbring T, Thum C, Wilms J (2018)

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Publication Status: Published

Publication Type: Journal article

Publication year: 2018

Journal

Publisher: EDP SCIENCES S A

Book Volume: 610

Article Number: ARTN A32

DOI: 10.1051/0004-6361/201731952

Abstract

Context. While studies of large samples of jets of active galactic nuclei (AGN) are important in order to establish a global picture, dedicated single-source studies are an invaluable tool for probing crucial processes within jets on parsec scales. These processes involve in particular the formation and geometry of the jet magnetic held as well as the flow itself.Aims. We aim to better understand the dynamics within relativistic magneto-hydrodynamical flows in the extreme environment and close vicinity of supermassive black holes.Methods. We analyze the peculiar radio galaxy 3C 111, for which long-term polarimetric observations are available. We make use of the high spatial resolution of the VLBA network and the MOJAVE monitoring program, which provides high data quality also for single sources and allows us to study jet dynamics on parsec scales in full polarization with an evenly sampled time-domain. While electric vectors can probe the underlying magnetic field, other properties of the jet such as the variable (polarized) flux density, feature size, and brightness temperature, can give valuable insights into the flow itself. We complement the VLBA data with data from the IRAM 30-m Telescope as well as the SMA.Results. We observe a complex evolution of the polarized jet. The electric vector position angles (EVPAs) of features traveling down the jet perform a large rotation of greater than or similar to 180 degrees across a distance of about 20 pc. As opposed to this smooth swing, the EVPAs are strongly variable within the first parsecs of the jet. We find an overall tendency towards transverse EVPAs across the jet with a local anomaly of aligned vectors in between. The polarized flux density increases rapidly at that distance and eventually saturates towards the outermost observable regions. The transverse extent of the flow suddenly decreases simultaneously to a jump in brightness temperature around where we observe the EVPAs to turn into alignment with the jet flow. Also the gradient of the feature size and particle density with distance steepens significantly at that region.Conclusions. We interpret the propagating polarized features as shocks and the observed local anomalies as the interaction of these shocks with a localized recollimation shock of the underlying flow. Together with a sheared magnetic field, this shock-shock interaction can explain the large rotation of the EVPA. The superimposed variability of the EVPAs close to the core is likely related to a clumpy Faraday screen, which also contributes significantly to the observed EVPA rotation in that region.

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How to cite

APA:

Beuchert, T., Kadler, M., Perucho, M., Grossberger, C., Schulz, R., Agudo, I.,... Wilms, J. (2018). VLBA polarimetric monitoring of 3C 111. Astronomy & Astrophysics, 610. https://dx.doi.org/10.1051/0004-6361/201731952

MLA:

Beuchert, Tobias, et al. "VLBA polarimetric monitoring of 3C 111." Astronomy & Astrophysics 610 (2018).

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