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Polarization swings reveal magnetic energy dissipation in blazars

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Zhang, Haocheng
Böttcher, Markus
Chen, Xuhui
Guo, Fan
Li, Hui

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American Astronomical Society

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The polarization signatures of blazar emissions are known to be highly variable. In addition to small fluctuations of the polarization angle around a mean value, large (gsim180°) polarization angle swings are sometimes observed. We suggest that such phenomena can be interpreted as arising from light travel time effects within an underlying axisymmetric emission region. We present the first simultaneous fitting of the multi-wavelength spectrum, variability, and time-dependent polarization features of a correlated optical and gamma-ray flaring event of the prominent blazar 3C279, which was accompanied by a drastic change in its polarization signatures. This unprecedented combination of spectral, variability, and polarization information in a coherent physical model allows us to place stringent constraints on the particle acceleration and magnetic field topology in the relativistic jet of a blazar, strongly favoring a scenario in which magnetic energy dissipation is the primary driver of the flare event

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Zhang, H. et al. 2015. Polarization swings reveal magnetic energy dissipation in blazars. Astrophysical journal, 804(1): Article no 58. [https://doi.org/10.1088/0004-637X/804/1/58]

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