Multiband cross-correlated radio variability of the blazar 3C 279

ABSTRACT We present the results of our study of cross-correlations between long-term multiband observations of the radio variability of the blazar 3C 279. More than a decade (2008–2022) of radio data were collected at seven different frequencies ranging from 2 to 230 GHz. The multiband radio light c...

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Bibliographic Details
Published in:Monthly notices of the Royal Astronomical Society 2024-01, Vol.527 (3), p.6970-6980
Main Authors: Mohana A, Krishna, Gupta, Alok C, Marscher, Alan P, Sotnikova, Yulia V, Jorstad, S G, Wiita, Paul J, Cui, Lang, Aller, Margo F, Aller, Hugh D, Kovalev, Yu A, Kovalev, Y Y, Liu, Xiang, Mufakharov, T V, Popkov, A V, Mingaliev, M G, Erkenov, A K, Nizhelsky, N A, Tsybulev, P G, Zhao, Wei, Weaver, Z R, Morozova, D A
Format: Article
Language:English
Subjects:
Bends
Blazars
Correlation analysis
Cross correlation
Emission analysis
Frequencies
Knots
Light curve
Radio
Straight lines
Variability
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Summary:ABSTRACT We present the results of our study of cross-correlations between long-term multiband observations of the radio variability of the blazar 3C 279. More than a decade (2008–2022) of radio data were collected at seven different frequencies ranging from 2 to 230 GHz. The multiband radio light curves show variations in flux, with the prominent flare features appearing first at higher-frequency and later in lower-frequency bands. This behaviour is quantified by cross-correlation analysis, which finds that the emission at lower-frequency bands lags that at higher-frequency bands. Lag versus frequency plots are well fit by straight lines with negative slope, typically ∼−30 day GHz−1. We discuss these flux variations in conjunction with the evolution of bright moving knots seen in multiepoch Very Long Baseline Array maps to suggest possible physical changes in the jet that can explain the observational results. Some of the variations are consistent with the predictions of shock models, while others are better explained by a changing Doppler beaming factor as the knot trajectory bends slightly, given a small viewing angle to the jet.
ISSN:0035-8711
1365-2966
DOI:10.1093/mnras/stad3583