Radio and Optical Properties of the blazar PKS 1614+051 at z=3.21

Yu. V. Sotnikova (1,2); A. G. Mikhailov (1); A. E. Volvach (3); D. O.; Kudryavtsev (1); T. V. Mufakharov (1,2); V. V. Vlasyuk (1); M. L.; Khabibullina (1); A. A. Kudryashova (1); M. G. Mingaliev (1,2); A. K. Erkenov; (1); Yu. A. Kovalev (4); Y. Y. Kovalev (5); M. A. Kharinov (6); T. A.; Semenova (1); R. Yu. Udovitskiy (1); N. N. Bursov (1); S. A. Trushkin (1); O.; I. Spiridonova (1); A. V. Popkov (7,4); P. G. Tsybulev (1); L. N. Volvach; (3); N. A. Nizhelsky (1); G. V. Zhekanis (1); and K. V. Iuzhanina (1; 2) ((1); Special Astrophysical Observatory of Russian Academy of Sciences; (2) Kazan; Federal University; (3) Crimean Astrophysical Observatory of Russian Academy; of Sciences; (4) ASC; Lebedev Physical Institute of Russian Academy of; Sciences; (5) Max Planck Institute for Radio Astronomy; (6) Institute of; Applied Astronomy of Russian Academy of Sciences; (7) Moscow Institute of; Physics; Technology)

arXiv:2501.12694·astro-ph.GA·January 23, 2025

Radio and Optical Properties of the blazar PKS 1614+051 at z=3.21

Yu. V. Sotnikova (1,2), A. G. Mikhailov (1), A. E. Volvach (3), D. O., Kudryavtsev (1), T. V. Mufakharov (1,2), V. V. Vlasyuk (1), M. L., Khabibullina (1), A. A. Kudryashova (1), M. G. Mingaliev (1,2), A. K. Erkenov, (1), Yu. A. Kovalev (4), Y. Y. Kovalev (5), M. A. Kharinov (6)

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TL;DR

This study analyzes the radio and optical properties of the high-redshift blazar PKS 1614+051 over multiple years, revealing stable spectral features, variability patterns, and the presence of gaseous matter influencing its emission mechanisms.

Contribution

It provides the first long-term, multiwavelength analysis of a high-redshift blazar, including spectral modeling and gas environment characterization.

Findings

01

Spectral peak around 4.6 GHz remains stable over time.

02

Detected time delays between radio frequencies up to 6.4 years.

03

Estimated magnetic field strength peaks at ~30 mG.

Abstract

We present a study of the radio and optical properties of the high-frequency peaker (HFP) blazar PKS 1614+051 at $z = 3.21$ based on the data covering the time period of 1997-2024. The radio data are represented by the almost instantaneous 1-22 GHz measurements from the SAO RAS RATAN-600 radio telescope, the 5 and 8 GHz data from the IAA RAS RT-32 telescopes, and the 37 GHz data from the RT-22 telescope of CrAO RAS. The optical measurements in the $R$ band were collected with the SAO RAS 1-m Zeiss-1000 and 0.5-m AS-500/2 telescopes and the ZTF archive data. We have found low overall variability indices (0.1-0.2) and a spectral peak around 4.6 GHz, which is stable during the long-term period of monitoring. An analysis of the radio light curves reveals significant time delays (0.6 to 6.4 years) between the radio frequencies along with variability timescales ranging from 0.2 to 1.8 years in…

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