Intra-night optical polarization monitoring of blazars

Polychronakis, Aristeidis; Liodakis, Ioannis; Glykopoulou, Anastasia; Blinov, Dmitry; Agudo, Iván; Jorstad, Svetlana G.; Agís-González, Beatriz; Capecchiacci, Sara; Floris, Alberto; Kielhmann, Sebastian; Kypriotakis, John A.; Langis, Dimitrios A.; Mandarakas, Nikos; Pal, Karan; Aceituno, Francisco J.; Bonnoli, Giacomo; Casanova, Víctor; Emery, Gabriel; Escudero Pedrosa, Juan; Otero-Santos, Jorge; Morcuende, Daniel; Sota, Alfredo; Piirola, Vilppu
Intra-night optical polarization monitoring of blazars

Polychronakis, Aristeidis
Liodakis, Ioannis
Glykopoulou, Anastasia
Blinov, Dmitry
Agudo, Iván
Jorstad, Svetlana G.
Agís-González, Beatriz
Capecchiacci, Sara
Floris, Alberto
Kielhmann, Sebastian
Kypriotakis, John A.
Langis, Dimitrios A.
Mandarakas, Nikos
Pal, Karan
Aceituno, Francisco J.
Bonnoli, Giacomo
Casanova, Víctor
Emery, Gabriel
Escudero Pedrosa, Juan
Otero-Santos, Jorge
Morcuende, Daniel
Sota, Alfredo
Piirola, Vilppu
Katso/Avaa
Lataukset: 

EDP Sciences
doi:10.1051/0004-6361/202557558
URI
https://www.aanda.org/articles/aa/full_html/2025/12/aa57558-25/aa57558-25.html
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Julkaisun pysyvä osoite on:
https://urn.fi/URN:NBN:fi-fe202601215850
Tiivistelmä

Blazars are known for their extreme variability across the electromagnetic spectrum. Variability at very short timescales can allow us to discriminate between competing models. This is particularly true for polarization variability, which allows us to probe particle acceleration and high-energy emission models in blazars. Here we present results from the first pilot study of intra-night optical polarization monitoring conducted using RoboPol at the Skinakas Observatory; these results are supplemented by observations from the Calar Alto, Perkins, and Sierra Nevada observatories. Our results show that while variability patterns can vary widely between sources, variability on timescales as short as minutes is prevalent in blazar jets. The amplitudes of the variations are typically small, a few percent for the polarization degree and less than 20° for the polarization angle, pointing to a significant contribution to the optical emission from a turbulent magnetic field component. The overall stability of the polarization angle over time points to a preferred magnetic field orientation.

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