Research on a 44 Day Quasi-periodic Oscillation of Optical Bands for BL Lac S5 0716+714

The Astrophysical Journal Pub Date : 2024-01-24 DOI:10.3847/1538-4357/ad07db

Lin Lu, Bin Sun, Zhen-Xing Fang, Meng Wan, Yunlu Gong

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Abstract

By means of astronomical observation data from the 60 cm Telescope at Yunnan Observatory, optical data in the g, r, and i bands were collected for BL Lac S5 0716+714, spanning from 2017 November 10 to 2018 May 15. The original data set contains 21,396 quasi-simultaneous multiband points, with 7132 data points for each band. The Lomb–Scargle periodogram method and the weighted wavelet Z-transform method were used to search for a quasi-periodic oscillation (QPO) signal in the data. For the first time, we report a QPO signal at 44 ± 6 days with a final significance of 3.98σ. Further analysis of the spectrum index reveals that the 44 day QPO signal is most likely explained by a helical motion of a blob with velocity β in the jet, where the viewing angle of the emission region in the jet undergoes periodic variations. In addition, we employed the hypothesis testing method (the null hypothesis) to analyze the flux distribution and determined that a double log-normal distribution provides a better fit; thus, there may be two radiative mini-regions within a jet in this source, so this 44 day QPO signal may be superimposed on a longer-term outburst.

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BL Lac S5 0716+714 的光学波段 44 天准周期振荡研究

通过云南天文台60厘米望远镜的天文观测数据，收集到了BL Lac S5 0716+714的g、r、i波段光学数据，时间跨度为2017年11月10日至2018年5月15日。原始数据集包含 21396 个准同步多波段点，每个波段 7132 个数据点。采用 Lomb-Scargle 周期图法和加权小波 Z 变换法在数据中寻找准周期振荡（QPO）信号。我们首次报告了 44 ± 6 天的 QPO 信号，其最终显著性为 3.98σ。对光谱指数的进一步分析表明，44 天的 QPO 信号最有可能是由喷流中速度为 β 的 Blob 的螺旋运动解释的，喷流中发射区的视角会发生周期性变化。此外，我们还采用了假设检验方法（零假设）来分析通量分布，并确定双对数正态分布具有更好的拟合效果；因此，该源的喷流中可能存在两个辐射小区域，所以这个44天的QPO信号可能是一个较长期爆发的叠加。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Astrophysical Journal

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