A Two-zone Accretion Disk in the Changing-look Active Galactic Nucleus 1ES 1927+654: Physical Implications for Tidal Disruption Events and Super-Eddington Accretion

Ruancun LiKavli Institute for Astronomy and Astrophysics, Peking University, Luis C. Ho, Claudio Ricci, Benny Trakhtenbrot
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引用次数: 0

Abstract

The properties of slim accretion disks, while crucial for our understanding of black hole growth, have yet to be studied extensively observationally. We analyze the multi-epoch broad-band spectral energy distribution of the changing-look active galactic nucleus 1ES 1927+654 to derive the properties of its complex, time-dependent accretion flow. The accretion rate decays as $\dot{M} \propto t^{-1.53}$, consistent with the tidal disruption of a $1.1\, M_\odot$ star. Three components contribute to the spectral energy distribution: a central overheated zone resembling a slim disk, an outer truncated thin disk, and a hot corona. Photon trapping in the slim disk triggered by the high initial $\dot{M}$ was characterized by a low radiation efficiency ($3\%$), which later more than doubled ($8\%$) after $\dot{M}$ dropped sufficiently low for the disk to transition to a geometrically thin state. The blackbody temperature profile $T \propto R^{-0.60}$ for the inner overheated zone matches the theoretical expectations of a slim disk, while the effective temperature profile of $T \propto R^{-0.69}$ for the outer zone is consistent with the predictions of a thin disk. Both profiles flatten toward the inner boundary of the disk as a result of Compton cooling in the corona. Our work presents compelling observational evidence for the existence of slim accretion disks and elucidates the key parameters governing their behavior, paving the way for further exploration in this area.
变貌活动星系核 1ES 1927+654 中的双区吸积盘:潮汐扰动事件和超爱丁顿吸积的物理意义
纤细吸积盘的特性对于我们理解黑洞的成长至关重要,但我们尚未对其进行广泛的观测研究。我们分析了不断变化的活动星系核1ES 1927+654的多波段宽带光谱能量分布,得出了其复杂的、随时间变化的吸积流的性质。吸积率以$\dot{M}的形式衰减\propto t^{-1.53}$,与一颗1.1\,M_\odot$恒星的潮汐破坏相一致。光谱能量分布由三个部分组成:一个类似于细长圆盘的中央过热区、一个外部截断的薄圆盘和一个热日冕。由初始高$\dot{M}$引发的细长盘中的光子捕获具有低辐射效率($3\%$)的特点,后来当$\dot{M}$下降到足够低的程度,使细长盘过渡到几何上的稀薄状态后,光子捕获效率增加了一倍多($8\%$)。内侧过热区的黑体温度曲线$T \propto R^{-0.60}$符合理论上对薄盘的预期,而外侧过热区的有效温度曲线$T \propto R^{-0.69}$则符合对薄盘的预测。由于日冕的康普顿冷却作用,这两个温度曲线都向圆盘内部边界变平。我们的工作为细长吸积盘的存在提供了令人信服的观测证据,并阐明了支配其行为的关键参数,为这一领域的进一步探索铺平了道路。
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