Investigating the multiwavelength behaviour of the flat spectrum radio   quasar CTA 102 during 2013-2017

F. D'Ammando; C. M. Raiteri; M. Villata; J. A. Acosta-Pulido; I.; Agudo; A. A. Arkharov; R. Bachev; G. V. Baida; E. Benitez; G. A. Borman; W.; Boschin; V. Bozhilov; M. S. Butuzova; P. Calcidese; M. I. Carnerero; D.; Carosati; C. Casadio; N. Castro-Segura; W.-P. Chen; G. Damljanovic; A. Di; Paola; J. Echevarria; N. V. Efimova; Sh. A. Ehgamberdiev; C. Espinosa; A.; Fuentes; A. Giunta; J. L. Gomez; T. S. Grishina; M. A. Gurwell; D. Hiriart,; H. Jermak; B. Jordan; S. G. Jorstad; M. Joshi; G. N. Kimeridze; E. N.; Kopatskaya; K. Kuratov; O. M. Kurtanidze; S. O. Kurtanidze; A. Lahteenmaki,; V. M. Larionov; E. G. Larionova; L. V. Larionova; C. Lazaro; C. S. Lin; M. P.; Malmrose; A. P. Marscher; K. Matsumoto; B. McBreen; R. Michel; B. Mihov; M.; Minev; D. O. Mirzaqulov; S. N. Molina; J. W. Moody; D. A. Morozova; S. V.; Nazarov; A. A. Nikiforova; M. G. Nikolashvili; J. M. Ohlert; N. Okhmat; E.; Ovcharov; F. Pinna; T. A. Polakis; C. Protasio; T. Pursimo; F. J.; Redondo-Lorenzo; N. Rizzi; G. Rodriguez-Coira; K. Sadakane; A. C. Sadun; M.; R. Samal; S. S. Savchenko; E. Semkov; L. Sigua; B. A. Skiff; L.; Slavcheva-Mihova; P. S. Smith; I. A. Steele; A. Strigachev; J. Tammi; C.; Thum; M. Tornikoski; Yu. V. Troitskaya; I. S. Troitsky; A. A. Vasilyev; O.; Vince (the WEBT Collaboration); T. Hovatta; S. Kiehlmann; W. Max-Moerbeck; A.; C. S. Readhead; R. Reeves; T. J. Pearson (the OVRO Team); T. Mufakharov; Yu.; V. Sotnikova; M. G. Mingaliev

arXiv:1910.03609·astro-ph.HE·November 12, 2019

Investigating the multiwavelength behaviour of the flat spectrum radio quasar CTA 102 during 2013-2017

F. D'Ammando, C. M. Raiteri, M. Villata, J. A. Acosta-Pulido, I., Agudo, A. A. Arkharov, R. Bachev, G. V. Baida, E. Benitez, G. A. Borman, W., Boschin, V. Bozhilov, M. S. Butuzova, P. Calcidese, M. I. Carnerero, D., Carosati, C. Casadio, N. Castro-Segura, W.-P. Chen

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TL;DR

This study analyzes multiwavelength data of the quasar CTA 102 from 2013 to 2017, revealing unprecedented gamma-ray flares, their correlation with optical and infrared activity, and supporting a geometrical model of flux variability due to jet viewing angle changes.

Contribution

It provides a comprehensive multiwavelength analysis of CTA 102, highlighting the correlation between gamma-ray and optical variability and supporting a geometrical model for flux changes.

Findings

01

Unprecedented gamma-ray flaring activity in 2016-2017.

02

Strong correlation between gamma-ray and optical flux variations.

03

Flux variability explained by changes in jet viewing angle.

Abstract

We present a multiwavelength study of the flat-spectrum radio quasar CTA 102 during 2013-2017. We use radio-to-optical data obtained by the Whole Earth Blazar Telescope, 15 GHz data from the Owens Valley Radio Observatory, 91 and 103 GHz data from the Atacama Large Millimeter Array, near-infrared data from the Rapid Eye Monitor telescope, as well as data from the Swift (optical-UV and X-rays) and Fermi ( $γ$ rays) satellites to study flux and spectral variability and the correlation between flux changes at different wavelengths. Unprecedented $γ$ -ray flaring activity was observed during 2016 November-2017 February, with four major outbursts. A peak flux of (2158 $\pm$ 63) $\times$ 10 $^{- 8}$ ph cm $^{- 2}$ s $^{- 1}$ , corresponding to a luminosity of (2.2 $\pm$ 0.1) $\times$ 10 $^{50}$ erg s $^{- 1}$ , was reached on 2016 December 28. These four $γ$ -ray outbursts have corresponding…

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