The 2016 June Optical and Gamma-Ray Outburst and Optical Microvariability of the Blazar 3C 454.3

Weaver, Z. R.; Balonek, T. J.; Jorstad, Svetlana G.; Marscher, A. P.; Ларионов, В. М.; Smith, Paul S.; Boni, Samantha J.; Борман, Г. А.; Chapman, Katie J.; Jenks, Leah; Kopatskaya, E. N.; Ларионова, Е. Г.; Morozova, D. A.; Nikiforova, A. A.; Sabyr, Alina; Савченко, С. С.; Stahlin, Ryan W.; Troitskaya, Yu. V.; Troitsky, I. S.; Zhang, Sai‐Yang

doi:10.3847/1538-4357/ab0e7c

Cited by 25 publications

(20 citation statements)

References 66 publications

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“…This interpretation describes well what happened during the FP1 and is compatible with the shock-injet model (e.g. Marscher & Gear 1985;Valtaoja et al 1992;Fromm et al 2011;Hughes et al 2011;Weaver et al 2019). During the FP2, the spectral index is not varying as much as during the FP1 and the changes are slower.…”

Section: Cross-correlations For the Separate Flaring Periodssupporting

confidence: 85%

“…Hence, the estimated collision between the blob B11 and the quasi-stationary component C could explain the origin of the multiwavelength flaring event in the latter. Weaver et al (2019) reported an ejection of a relativistic component K16 from the 43 GHz core ∼4 months before the flaring event of June 2016 (JD − 2450000 = 7448 ± 17.5) and traveled across until it disappeared. They interpreted that the electrons were accelerated from a back interaction with the core causing the variability.…”

Section: Cross-correlations For the Separate Flaring Periodsmentioning

confidence: 99%

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Multiwavelength analysis and the difference in the behavior of the spectral features during the 2010 and 2014 flaring periods of the blazar 3C 454.3

Amaya-Almazán,

Chavushyan,

Patiño-Álvarez

2020

Preprint

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The flat-spectrum radio quasar 3C 454.3 throughout the years has presented very high activity phases (flares) in which the different wavebands increase their flux dramatically. In this work, we perform multiwavelength analysis from radio to gamma-rays and study the Mg II λ2798 Å emission line and the UV Fe II band from 2008-2018. We found that an increase in the 43 GHz flux density of the quasi-stationary component C, coincides with the estimated time at which a superluminal blob ejected from the radio core (which caused the brightest flare of 2010) collides with the quasi-stationary component (at a projected distance of ∼ 4.6 pc from the radio core). The spectral index different behavior in the first (5000 < JD − 2450000 < 5600) and second (6600 < JD − 2450000 < 7900) flaring periods suggest changes in the physical conditions. The complex nature of the second period can be a result of a superposition of multiple events at different locations. The Mg II has an anti-correlation with the UV-continuum while Fe II correlates positively. Except by the time of the brightest flare of 2010, when both have a strong response at high continuum luminosities. Our results suggest that the dominant gamma-ray emission mechanism for the first flaring period is External Compton. For the second flaring period the seed photons emission region is co-spatial with the gamma-ray emission region. However, a SED study using a multizone jet emission model is required to confirm the nature of each significant flare during the second period.

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Section: Cross-correlations For the Separate Flaring Periodssupporting

confidence: 85%

Section: Cross-correlations For the Separate Flaring Periodsmentioning

confidence: 99%

Multiwavelength analysis and the difference in the behavior of the spectral features during the 2010 and 2014 flaring periods of the blazar 3C 454.3

Amaya-Almazán,

Chavushyan,

Patiño-Álvarez

2020

Preprint

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“…An ANOVA test has been used to identify and characterize the optical flux density and polarization variability of the BL Mrk 421 (Fraija et al 2017) and the FSRQ 3C454.3 (Weaver et al 2019), with observed timescales of variability of ∼ 2 hr in both cases. The sampling rate of observations in these studies was on the order of several minutes between observations, for at most a few hours each night.…”

Section: Intraday Variability Of Tess Datamentioning

confidence: 99%

“…They are thought to be powered by relativistic jets of high-energy plasma flowing away from the central engine at nearly the speed of light (e.g., Lister et al 2016;Jorstad et al 2017), with trajectories closely aligned to the line of sight. The observed phenomena include ultraluminous emission (apparent luminosity as high as ∼ 10 50 erg s −1 , e.g., Abdo et al 2010aAbdo et al , 2011aGiommi et al 2012;Şentürk et al 2013), high amplitudes of variability on timescales as short as several minutes at various wavebands (e.g., H. E. S. S. Collaboration et al 2010;Jorstad et al 2013;Weaver et al 2019), and high degrees of optical linear polarization (which can exceed 40%; e.g., Smith 2016). Both theoretical work (e.g., Königl 1981;Marscher 1987) and observations (e.g., Hartman et al 1999;Jorstad et al 2001;Lister et al 2011) have found a tight connection between the high-energy and radio emission from the jets.…”

Section: Introductionmentioning

confidence: 99%

Multiwavelength Variability of BL Lacertae Measured with High Time Resolution

Weaver

Williamson

Jorstad

et al. 2020

ApJ

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“…Diltz & Böttcher (2016) modeled the broad-band SED generated with data gathered during the 2010 flare, concluding that the one zone leptohadronic model provides merely poor fits. Interestingly, Weaver et al (2019) discovered a QPO with a characteristic period of 36 minutes, analyzing R-band optical data of the 2016 flare.…”

Section: C 279mentioning

confidence: 99%

A comprehensive power spectral density analysis of astronomical time series I: the Fermi-LAT gamma-ray light curves of selected blazars

Tarnopolski,

Żywucka,

Marchenko

et al. 2020

Preprint

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We present the results of the Fermi -LAT 10-years-long light curves (LCs) modeling of selected blazars: six flat spectrum radio quasars (FSRQs) and five BL Lacertae (BL Lacs), examined in 7-, 10-, and 14-day binning. The LCs and power spectral densities (PSDs) were investigated with various methods: Fourier transform, Lomb-Scargle periodogram (LSP), wavelet scalogram, autoregressive moving average (ARMA) process, continuous-time ARMA (CARMA), Hurst exponent (H), and the A − T plane. First, with extensive simulations we showed that parametric modeling returns unreliable parameters, with a high dispersion for different realizations of the same stochastic model. Hence any such analysis should be supported with Monte Carlo simulations. For our blazar sample, we find that the power law indices β calculated from the Fourier and LSP modeling mostly fall in the range 1 β 2. Using the wavelet scalograms, we confirm a quasi-periodic oscillation (QPO) in PKS 2155−304 at a 3σ significance level, but do not detect any QPOs in other objects. The ARMA fits reached higher orders for 7-day binned LCs and lower orders for 10-and 14-days binned LCs for the majority of blazars, suggesting there might exist a characteristic timescale for the perturbations in the jet and/or accretion disk to die out. ARMA and CARMA modeling revealed breaks in their PSDs at timescales of few hundred days. The estimation of H was performed with several methods. We find that most blazars exhibit H > 0.5, indicating long-term memory. Finally, the FSRQ and BL Lac subclasses are clearly separated in the A − T plane.

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The 2016 June Optical and Gamma-Ray Outburst and Optical Microvariability of the Blazar 3C 454.3

Cited by 25 publications

References 66 publications

Multiwavelength analysis and the difference in the behavior of the spectral features during the 2010 and 2014 flaring periods of the blazar 3C 454.3

Multiwavelength analysis and the difference in the behavior of the spectral features during the 2010 and 2014 flaring periods of the blazar 3C 454.3

Multiwavelength Variability of BL Lacertae Measured with High Time Resolution

A comprehensive power spectral density analysis of astronomical time series I: the Fermi-LAT gamma-ray light curves of selected blazars

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