Bibcode
Raiteri, C. M.; Villata, M.; Carnerero, M. I.; Savchenko, S. S.; Kurtanidze, S. O.; Vlasyuk, V. V.; Marchini, A.; Matsumoto, K.; Lorey, C.; Joner, M. D.; Gazeas, K.; Carosati, D.; Mirzaqulov, D. O.; Acosta Pulido, J. A.; Agudo, I.; Bachev, R.; Benítez, E.; Borman, G. A.; Calcidese, P.; Chen, W. P.; Damljanovic, G.; Ehgamberdiev, S. A.; Elsässer, D.; Feige, M.; Frasca, A.; Gaur, H.; Grishina, T. S.; Gupta, A. C.; Hiriart, D.; Holland, M.; Horst, B.; Ibryamov, S.; Ivanidze, R. Z.; Jensen, J.; Jithesh, V.; Jovanovic, M. D.; Kiehlmann, S.; Kimeridze, G. N.; Kishore, S.; Kopatskaya, E. N.; Kurtanidze, O. M.; Larionova, E. G.; Lin, H. C.; Mannheim, K.; Marinelli, C.; Moreira Reyes, J.; Morozova, D. A.; Nikolashvili, M. G.; Reinhart, D.; Romanov, F. D.; Semkov, E.; Seufert, J.; Shishkina, E. V.; Sigua, L. A.; Skalidis, R.; Spiridonova, O. I.; Stojanovic, M.; Strigachev, A.; Troitskaya, Y. V.; Troitskiy, I. S.; Tsai, A.; Vasilyev, A. A.; Vince, O.; Vrontaki, K.; Wani, K.; Watts, D.; Zhovtan, A. V.
Referencia bibliográfica
Monthly Notices of the Royal Astronomical Society
Fecha de publicación:
12
2023
Número de citas
4
Número de citas referidas
2
Descripción
In 2022 the BL Lac object S4 0954+65 underwent a major variability phase, reaching its historical maximum brightness in the optical and γ-ray bands. We present optical photometric and polarimetric data acquired by the Whole Earth Blazar Telescope (WEBT) Collaboration from 2022 April 6 to July 6. Many episodes of unprecedented fast variability were detected, implying an upper limit to the size of the emitting region as low as $10^{-4}$ parsec. The WEBT data show rapid variability in both the degree and angle of polarization. We analyse different models to explain the polarization behaviour in the framework of a twisting jet model, which assumes that the long-term trend of the flux is produced by variations in the emitting region viewing angle. All the models can reproduce the average trend of the polarization degree, and can account for its general anticorrelation with the flux, but the dispersion of the data requires the presence of intrinsic mechanisms, such as turbulence, shocks, or magnetic reconnection. The WEBT optical data are compared to γ-ray data from the Fermi satellite. These are analysed with both fixed and adaptive binning procedures. We show that the strong correlation between optical and γ-ray data without measurable delay assumes different slopes in faint and high brightness states, and this is compatible with a scenario where in faint states we mainly see the imprint of the geometrical effects, while in bright states the synchrotron self-Compton process dominates.
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