Portal:Radiation astronomy/Resource/39

Active galactic nuclei edit

The image contains a series of radio images at successive epochs using the VLBA of the jet in the broad-line radio galaxy 3C 111. Credit: M. Kadler, E. Ros, M. Perucho, Y. Y. Kovalev, D. C. Homan, I. Agudo, K. I. Kellermann, M. F. Aller, H. D. Aller, M. L. Lister, and J. A. Zensus.

For active galactic nuclei (AGNs) "bright jet features typically exhibit apparent superluminal speeds and accelerated motions."^[1]

AGN "jets with the fastest superluminal speeds all tend to have high Doppler boosted radio luminosities. [...] there is a correlation between intrinsic jet speed and intrinsic (de-beamed) luminosity".^[1]

"VLBA images of the jet in the broad-line radio galaxy 3C 111. The picture shows the variable parsec-scale structure of the jet in this active galactic nucleus. The features observed correspond to ejected plasma regions traveling at relativistic speeds. Those appear to be larger than the speed of light due to projection effects. The sixteen images are spaced by their relative time intervals. The images show that a major radio flux-density outburst in 1996 was followed by a particularly bright plasma ejection associated with a superluminal jet component. This major event was followed by trailing features in its evolution. A similar event is seen after mid 2001. The jet dynamics in this source is revealed: a plasma injection into the jet beam leads to the formation of multiple shocks that travel at different speeds downstream (ranging from 3c to 6c) and interact with each other and with the ambient medium. This is in agreement with numerical relativistic magnetohydrodynamic structural and emission simulations of jets."^[2]

"Images were taken at 15 GHz with the full Very Long Baseline Array as part of the 2cm Survey/MOJAVE collaboration. The observing runs usually last 8 hr and the total observing time on source is approximately 50 minutes. The typical dynamic range in the images is of 1000:1 (the lowest shown flux density is typically of 1-2 mJy/beam). The images are convolved with a common restoring beam of 0.5x1.0 milliarcseconds (P.A. of 0 deg). The image alignment is (arbitrary) to the brightness peak. The superluminal speeds of the features in the jet were determined from a detailed analysis of multiple Gaussian model fits to the observed visibilities."^[2]

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References edit

↑ ^1.0 ^1.1 M. I. Lister; M. F. Aller; H. D. Aller; D. C. Homan; K. I. Kellermann; Y. Y. Kovalev; A. B. Pushkarev; J. L. Richards et al. (2013). "MOJAVE. X. Parsec-Scale Jet Orientation Variations and Superluminal Motion in AGN". The Astronomical Journal. http://arxiv.org/pdf/1308.2713v1.pdf. Retrieved 2014-03-17.
↑ ^2.0 ^2.1 M. Kadler; E. Ros; M. Perucho; Y. Y. Kovalev; D. C. Homan; I. Agudo; K. I. Kellermann; M. F. Aller et al. (September 23, 2005). Superluminal Motions in the Jet of 3C 111. West Virginia USA: National Radio Astronomy Observatory. http://images.nrao.edu/600. Retrieved 2014-03-17.

[Lister-1] 1.0 ^1.1 M. I. Lister; M. F. Aller; H. D. Aller; D. C. Homan; K. I. Kellermann; Y. Y. Kovalev; A. B. Pushkarev; J. L. Richards et al. (2013). "MOJAVE. X. Parsec-Scale Jet Orientation Variations and Superluminal Motion in AGN". The Astronomical Journal. http://arxiv.org/pdf/1308.2713v1.pdf. Retrieved 2014-03-17.

[Kadler-2] 2.0 ^2.1 M. Kadler; E. Ros; M. Perucho; Y. Y. Kovalev; D. C. Homan; I. Agudo; K. I. Kellermann; M. F. Aller et al. (September 23, 2005). Superluminal Motions in the Jet of 3C 111. West Virginia USA: National Radio Astronomy Observatory. http://images.nrao.edu/600. Retrieved 2014-03-17.

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