来自MEXSAS2样本的活动星系核的单个光学变异性

M. Laurenti, F. Vagnetti, R. Middei, R. Middei, M. Paolillo
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引用次数: 1

摘要

活动星系核(agn)的变异性研究大多基于系综分析。然而,提供每个AGN的个体变异性属性的估计是有趣的,以便将它们与内在物理量联系起来。卡塔利娜巡天数据发布2号(CSDR2)提供了一个有用的数据集,它包含了近十年来对$\sim500$百万物体的光度测量,这些物体被反复观察了数百次。我们的目标是研究最初包含在多历元XMM Serendipitous AGN样本2 (MEXSAS2)中的795个AGN的单个光学变异性。我们的目标包括:(i)寻找变异率与AGN物理量之间的相关性;(ii)将我们对MEXSAS2的变异性特征的认识从x射线扩展到光学。我们使用结构函数(SF)来分析AGN的通量变化。我们将SF建模为幂律,$\text{SF}(\tau)=A\,(\tau/\tau_0)^\gamma$,并计算其变异性参数。我们引入v校正作为一种简单的工具来正确量化每个源的剩余帧中的可变性量。我们发现随着热光度、光学光度和x射线光度的增加,变异性幅度显著减小。我们得到一个内在弱的正相关的指示变异性振幅和红移,$z$。变异性幅度也与$\alpha_\text{ox}$呈正相关。SF的斜率$\gamma$与热光度$L_\text{bol}$和/或黑洞质量$M_\text{BH}$的相关性较弱。将光学变异性与x射线变异性进行比较,我们发现对于光学变异性较大或较小的agn,其x射线变异性幅度大致相同。相反,在光学上具有更陡的SF的agn在x射线中确实呈现更陡的SF,反之亦然。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Individual optical variability of active galactic nuclei from the MEXSAS2 sample
Most of the variability studies of active galactic nuclei (AGNs) are based on ensemble analyses. Nevertheless, it is interesting to provide estimates of the individual variability properties of each AGN, in order to relate them with intrinsic physical quantities. A useful dataset is provided by the Catalina Surveys Data Release 2 (CSDR2), which encompasses almost a decade of photometric measurements of $\sim500$ million objects repeatedly observed hundreds of times. We aim to investigate the individual optical variability properties of 795 AGNs originally included in the Multi-Epoch XMM Serendipitous AGN Sample 2 (MEXSAS2). Our goals consist in: (i) searching for correlations between variability and AGN physical quantities; (ii) extending our knowledge of the variability features of MEXSAS2 from the X-ray to the optical. We use the structure function (SF) to analyse AGN flux variations. We model the SF as a power-law, $\text{SF}(\tau)=A\,(\tau/\tau_0)^\gamma$, and we compute its variability parameters. We introduce the V-correction as a simple tool to correctly quantify the amount of variability in the rest frame of each source. We find a significant decrease of variability amplitude with increasing bolometric, optical and X-ray luminosity. We obtain the indication of an intrinsically weak positive correlation between variability amplitude and redshift, $z$. Variability amplitude is also positively correlated with $\alpha_\text{ox}$. The slope of the SF, $\gamma$, is weakly correlated with the bolometric luminosity $L_\text{bol}$ and/or with the black hole mass $M_\text{BH}$. When comparing optical to X-ray variability properties, we find that X-ray variability amplitude is approximately the same for those AGNs with larger or smaller variability amplitude in the optical. On the contrary, AGNs with steeper SF in the optical do present steeper SF in the X-ray, and vice versa.
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