Multiwavelength variability of the blazar AO 0235+164

V. V. Vlasyuk (1); Yu. V. Sotnikova (1,2); A. E. Volvach (3); T. V.; Mufakharov (1,2); Yu. A. Kovalev (4,5); O. I. Spiridonova (1); M. L.; Khabibullina (1); Yu. Yu. Kovalev (6); A. G. Mikhailov (1); V. A. Stolyarov; (1,7); D. O. Kudryavtsev (1); M. G. Mingaliev (1,2,8); S. Razzaque (9); T. A.; Semenova (1); A. K. Kudryashova (1); N. N. Bursov (1); S. A. Trushkin (1); A.; V. Popkov (10,4); A. K. Erkenov (1); I. A. Rakhimov (8); M. A. Kharinov (8),; M. A. Gurwell (11); P. G. Tsybulev (1); A. S. Moskvitin (1); T. A. Fatkhullin; (1); E. V. Emelianov (1); A. Arshinova (12); K. V. Iuzhanina (1,2); T. S.; Andreeva (8); L. N. Volvach (3); A. Ghosh (9) ((1) Special Astrophysical; Observatory of the RAS; (2) Kazan Federal University; (3) Crimean; Astrophysical Observatory of the RAS; (4) Astro Space Center; Lebedev; Physical Institute of the RAS; (5) Institute for Nuclear Research of the RAS,; (6) Max-Planck-Institut f\"ur Radioastronomie; (7) Astrophysics Group,; Cavendish Laboratory; University of Cambridge; (8) Institute of Applied; Astronomy of the RAS; (9) Centre for Astro-Particle Physics; Department of; Physics; University of Johannesburg; (10) Moscow Institute of Physics and; Technology; (11) Center for Astrophysics; Harvard \& Smithsonian; (12) St.; Petersburg State University)

arXiv:2411.01497·astro-ph.HE·December 3, 2024

Multiwavelength variability of the blazar AO 0235+164

V. V. Vlasyuk (1), Yu. V. Sotnikova (1,2), A. E. Volvach (3), T. V., Mufakharov (1,2), Yu. A. Kovalev (4,5), O. I. Spiridonova (1), M. L., Khabibullina (1), Yu. Yu. Kovalev (6), A. G. Mikhailov (1), V. A. Stolyarov, (1,7), D. O. Kudryavtsev (1), M. G. Mingaliev (1,2,8)

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TL;DR

This study analyzes the multiwavelength variability of the blazar AO 0235+164 over 26 years, revealing correlated variability across radio, optical, and gamma-ray bands, with insights into jet physics and potential neutrino production.

Contribution

It provides a comprehensive multiwavelength analysis of AO 0235+164, including correlation, time delays, quasi-periodic oscillations, and jet modeling, which advances understanding of blazar variability mechanisms.

Findings

01

Significant radio, optical, and gamma-ray correlations with time delays up to 1.7 years.

02

A linear relation between time delay and frequency with a slope of -10 days/GHz.

03

Evidence supporting proton-electron replacement in jet synchrotron emission.

Abstract

We present a study of the multiwavelength (MW) variability of the blazar AO 0235+164 based on the radio-to- $γ$ -ray data covering a long time period from 1997 to 2023. The radio data are represented by the 1-22 GHz measurements from the RATAN-600 radio telescope, the 5 and 8 GHz data from the RT-32 telescopes, and the 37 GHz data from the RT-22 telescope. The optical measurements in the $R$ -band were collected with the 1-m Zeiss-1000 and 0.5-m AS-500/2 telescopes. Additionally we used the archive data at 230~GHz from the SMA and the $γ$ -ray data in the 0.1-100 GeV band from the Fermi-LAT point source 4FGL-DR2 catalogue. The variability properties during four epochs containing major flares and one epoch of relatively low activity were analysed. A significant correlation ( $\geq 2 σ$ ) between the radio, optical, and $γ$ -ray bands is found for all these periods with time…

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Taxonomy

TopicsAstrophysics and Cosmic Phenomena · Gyrotron and Vacuum Electronics Research