Characterizing the Optical Nature of the Blazar S5 1803+784 during Its 2020 Flare

Agarwal, Aditi; Pandey, A. K.; Özdönmez, Aykut; Ege, Ergün; Das, Avik Kumar; Karakulak, Volkan

doi:10.3847/1538-4357/ac6cef

Cited by 4 publications

(2 citation statements)

References 58 publications

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“…Furthermore, BL Lacertae objects are found to have a lower luminosity as compared to FSRQs, thus indicating that different physical mechanisms are occurring in these classes. These flux changes in blazars are further associated with spectral changes (Böttcher et al 2010;Agarwal et al 2022). Flux variability can be attributed to various factors such as the Doppler factor variations, shock formation, variation in the Lorentz factor, injection of new electron population, variation in the magnetic field, and many more.…”

Section: Introductionmentioning

confidence: 97%

Classification of Blazar Candidates of Unknown Type in Fermi 4LAC by Unanimous Voting from Multiple Machine-learning Algorithms

Agarwal

2023

ApJ

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The Fermi fourth catalog of active galactic nuclei (AGNs) data release 3 (4LAC-DR3) contains 3407 AGNs, out of which 755 are flat spectrum radio quasars (FSRQs), 1379 are BL Lacertae objects (BL Lac objects), 1208 are blazars of unknown (BCUs) type, while 65 are non-AGNs. Accurate categorization of many unassociated blazars still remains a challenge due to the lack of sufficient optical spectral information. The aim of this work is to use high-precision, optimized machine-learning (ML) algorithms to classify BCUs into BL Lac objects and FSRQs. To address this, we selected the 4LAC-DR3 Clean sample (i.e., sources with no analysis flags) containing 1115 BCUs. We employ five different supervised ML algorithms, namely, random forest, logistic regression, XGBoost, CatBoost, and neural network with seven features: photon index, synchrotron-peak frequency, pivot energy, photon index at pivot energy, fractional variability, ν F ν, at synchrotron-peak frequency, and variability index. Combining results from all models leads to better accuracy and more robust predictions. These five methods together classified 610 BCUs as BL Lac objects and 333 BCUs as FSRQs with a classification metric area under the curve >0.96. Our results are significantly compatible with recent studies as well. The output from this study provides a larger blazar sample with many new targets that could be used for forthcoming multiwavelength surveys. This work can be further extended by adding features in X-rays, UV, visible, and radio wavelengths.

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Section: Introductionmentioning

confidence: 97%

Classification of Blazar Candidates of Unknown Type in Fermi 4LAC by Unanimous Voting from Multiple Machine-learning Algorithms

Agarwal

2023

ApJ

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“…The power-enhanced F-test is a tool for comparing the blazar LC with the combined variance of the comparison stars, which has been used in recent studies to detect IDV quantitatively (e.g., Gaur et al 2015;Polednikova et al 2016;Pandey et al 2019;Agarwal et al 2022). The power-enhanced F-statistic is defined as:…”

Section: Flux Variabilitymentioning

confidence: 99%

Investigating Optical Variability of the Blazar S5 0716+714 on Diverse Timescales

Ege,

Özdönmez,

Agarwal

et al. 2024

ApJ

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We present the results of the observational study of the blazar S5 0716+716 in the optical bands B, V, R, and I between 2019 March and 2023 August to investigate its variability on diverse timescales. The blazar was followed up by the T60 robotic telescope in Türkiye for 416 nights to obtain long-term variability during this period. In order to search for the intraday variability of the object, we have carried out 21 nights of observations with the T100 telescope for at least 1 hr. The blazar showed a ∼2.47 mag variation in the optical R band during our monitoring period, the brightest state on 2020 January 18 (MJD 58866) as R = 12.109 ± 0.011 mag and the faintest state on 2019 March 23 (MJD 58565) as R = 14.580 ± 0.013 mag. We employed the nested ANOVA test and the power-enhanced F-test to quantify intraday variability, which showed that the blazar was significantly variable in the R band on 12 out of 21 nights. Correlation analysis of the light curves shows that the emission in the BVRI optical bands was strongly correlated both in the short and long term without any time lag. The blazar has likely quasiperiods of 186 ± 30 and 532 ± 76 days in the optical R-band light curve according to the weighted wavelet Z-transform and Lomb–Scargle periodogram. The intraday variation and long-term variation features are discussed within the frame of prospective scenarios.

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Multiwavelength study of TeV blazar 1ES 1218+304 using gamma-ray, X-ray and optical observations

Diwan

Prince

Agarwal

et al. 2023

Monthly Notices of the Royal Astronomical Society

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We report the multi-wavelength study for a high-synchrotron-peaked BL Lac 1ES 1218+304 using near-simultaneous data obtained during the period from January 1, 2018, to May 31, 2021 (MJD 58119-59365) from various instruments including Fermi-LAT, Swift-XRT, AstroSat, and optical from Swift-UVOT & TUBITAK observatory in Turkey. The source was reported to be flaring in TeV γ-ray band during 2019, but no significant variation is observed with Fermi-LAT. A sub-hour variability is seen in the SXT light curve, suggesting a compact emission region for their variability. However, hour scale variability is observed in the γ-ray light curve. A ‘softer-when-brighter’ trend is observed in γ-rays, and an opposite trend is seen in X-rays suggesting both emissions are produced via two different processes as expected from an HBL source. We have chosen the two epochs in January 2019 to study and compare their physical parameters. A joint fit of SXT and LAXPC provides a constraint on the synchrotron peak, roughly estimated to be ∼1.6 keV. A clear shift in the synchrotron peak is observed from ∼1 keV to above 10 keV revealing its extreme nature or behaving like an EHBL-type source. The optical observation provides color-index variation as ‘blue-when-brighter’. The broadband SED is fitted with a single-zone SSC model, and their parameters are discussed in the context of a TeV blazar and the possible mechanism behind the broadband emission.

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Characterizing the Optical Nature of the Blazar S5 1803+784 during Its 2020 Flare

Cited by 4 publications

References 58 publications

Classification of Blazar Candidates of Unknown Type in Fermi 4LAC by Unanimous Voting from Multiple Machine-learning Algorithms

Classification of Blazar Candidates of Unknown Type in Fermi 4LAC by Unanimous Voting from Multiple Machine-learning Algorithms

Investigating Optical Variability of the Blazar S5 0716+714 on Diverse Timescales

Multiwavelength study of TeV blazar 1ES 1218+304 using gamma-ray, X-ray and optical observations

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