The spectral evolution of high-frequency radio outbursts in the blazar PKS:0420-014

Walter Gear

The spectral evolution of high-frequency radio outbursts in the blazar PKS:0420-014

Walter Gear

Physics

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Abstract

Multifrequency monitoring data between 375 and 22 GHz are used to investigate spectral evolution of radio outbursts in the blazar 0420-014. It is shown that, after subtraction of the underlying `quiescent emission, the flare spectrum can be described by a simple homogeneous self-absorbed synchrotron component. The evolution of the spectrum is found to be qualitatively consistent with the shock model of Marscher and Gear, although not totally so in detail. Some of the discrepancies can possibly be resolved if the proposed relativistic jet, which is initially oriented close to the line-of-sight, bends away. The optically thin spectrum of the flare emission, however, is found to be flatter than allowed by the model. Strong correlations are found between the 9\texttt\char126

Original language	English (Ireland)
Number of pages	8
Journal	Monthly Notices- Royal Astronomical Society
Volume	275
Publication status	Published - 1 Jan 1995

Authors (Note for portal: view the doc link for the full list of authors)

Authors
J. A. Stevens and S. J. Litchfield and E. I. Robson and Walter Kieran Gear and H. Terasranta and M. Tornikoski and E. Valtaoja

Cite this

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title = "The spectral evolution of high-frequency radio outbursts in the blazar PKS:0420-014",

abstract = "Multifrequency monitoring data between 375 and 22 GHz are used to investigate spectral evolution of radio outbursts in the blazar 0420-014. It is shown that, after subtraction of the underlying `quiescent emission, the flare spectrum can be described by a simple homogeneous self-absorbed synchrotron component. The evolution of the spectrum is found to be qualitatively consistent with the shock model of Marscher and Gear, although not totally so in detail. Some of the discrepancies can possibly be resolved if the proposed relativistic jet, which is initially oriented close to the line-of-sight, bends away. The optically thin spectrum of the flare emission, however, is found to be flatter than allowed by the model. Strong correlations are found between the 9\textbackslash{}texttt\textbackslash{}char126",

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N2 - Multifrequency monitoring data between 375 and 22 GHz are used to investigate spectral evolution of radio outbursts in the blazar 0420-014. It is shown that, after subtraction of the underlying `quiescent emission, the flare spectrum can be described by a simple homogeneous self-absorbed synchrotron component. The evolution of the spectrum is found to be qualitatively consistent with the shock model of Marscher and Gear, although not totally so in detail. Some of the discrepancies can possibly be resolved if the proposed relativistic jet, which is initially oriented close to the line-of-sight, bends away. The optically thin spectrum of the flare emission, however, is found to be flatter than allowed by the model. Strong correlations are found between the 9\texttt\char126

AB - Multifrequency monitoring data between 375 and 22 GHz are used to investigate spectral evolution of radio outbursts in the blazar 0420-014. It is shown that, after subtraction of the underlying `quiescent emission, the flare spectrum can be described by a simple homogeneous self-absorbed synchrotron component. The evolution of the spectrum is found to be qualitatively consistent with the shock model of Marscher and Gear, although not totally so in detail. Some of the discrepancies can possibly be resolved if the proposed relativistic jet, which is initially oriented close to the line-of-sight, bends away. The optically thin spectrum of the flare emission, however, is found to be flatter than allowed by the model. Strong correlations are found between the 9\texttt\char126

M3 - Article

VL - 275

JO - Monthly Notices- Royal Astronomical Society

JF - Monthly Notices- Royal Astronomical Society

ER -

The spectral evolution of high-frequency radio outbursts in the blazar PKS:0420-014

Abstract

Authors (Note for portal: view the doc link for the full list of authors)

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