How Long Will the Quasar UV/Optical Flickering Be Damped? II. the Observational Test

Guowei RenXMU, Shuying ZhouXMU, Mouyuan SunXMU, Yongquan XueUSTC
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Abstract

The characteristic timescale at which the variability of active galactic nuclei (AGNs) turns from red noise to white noise can probe the accretion physics around supermassive black holes (SMBHs). A number of works have studied the characteristic timescale of quasars and obtained quite different scaling relations between the timescale and quasar physical properties. One possible reason for the discrepancies is that the characteristic timescale can be easily underestimated if the light curves are not long enough. In this work, we construct well-defined AGN samples to observationally test the relationships between the characteristic timescale and AGN properties obtained by previous works. Our samples eliminate the effects of insufficient light-curve lengths. We confirm that the timescale predictions \citep{Zhou2024} of the Corona Heated Accretion disk Reprocessing model are consistent with our timescale measurements. The timescale predictions by empirically relations \citep[e.g.,][]{Kelly2009} are systematically smaller than our measured ones. Our results provide further evidence that AGN variability is driven by thermal fluctuations in SMBH accretion disks. Future flagship time-domain surveys can critically test our conclusions and reveal the physical nature of AGN variability.
类星体的紫外线/光学闪烁会被阻尼多久?二、观测检验
活动星系核(AGN)的变异性从红噪变为白噪的特征时标可以探测超大质量黑洞(SMBH)周围的吸积物理学。许多研究都对类星体的特征时标进行了研究,并得到了时标与类星体物理特性之间截然不同的比例关系。造成这种差异的一个可能原因是,如果光曲线不够长,特征时标很容易被低估。在这项工作中,我们构建了定义明确的AGN样本,以观测检验前人研究获得的特征时标与AGN性质之间的关系。我们证实了日冕加热吸积盘再处理模型的时标预言(citep{Zhou2024})与我们的时标测量结果是一致的。我们的结果进一步证明,AGN的变异性是由SMBH吸积盘的热波动驱动的。未来的旗舰时域巡天可以检验我们的结论,并揭示AGN可变性的物理本质。
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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