High-frequency Power Spectrum of Active Galactic Nucleus NGC 4051 Revealed by NICER

The Astrophysical Journal Letters Pub Date : 2025-02-27 DOI:10.3847/2041-8213/adace8

B. Rani, Jungeun Kim, I. Papadakis, K. C. Gendreau, M. Masterson, K. Hamaguchi, E. Kara, S.-S. Lee and R. Mushotzky

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Abstract

Variability studies offer a compelling glimpse into black hole dynamics, and Neutron Star Interior Composition Explorer's (NICER’s) remarkable temporal resolution propels us even further. NICER observations of an active galactic nucleus (AGN), NGC 4051, have charted the geometry of the emission region of the central supermassive black hole. Our investigation of X-ray variability in NGC 4051 has detected extreme variations spanning a factor of 40–50 over a mere 10–12 hr. For the first time, we have constrained the X-ray power spectral density (PSD) of the source to 0.1 Hz, corresponding to a temporal frequency of 104 Hz in a galactic X-ray binary with a mass of 10 M⊙. No extra high-frequency break/bend or any quasiperiodic oscillations are found. Through detailed analysis of energy-dependent PSDs, we found that the PSD normalization, the high-frequency PSD slope, as well as the bending frequency remain consistent across all energies within the 0.3–3 keV band, revealing the presence of a constant temperature corona. These significant findings impose critical constraints on current models of X-ray emission and variability in AGN.

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NICER揭示的活动星系核NGC 4051的高频功率谱

变异性研究为黑洞动力学提供了令人信服的一瞥，中子星内部成分探测器（NICER）非凡的时间分辨率推动我们更进一步。对活动星系核（AGN） NGC 4051的NICER观测已经绘制了中央超大质量黑洞发射区域的几何图形。我们对NGC 4051的x射线变异性的研究发现，在短短10-12小时内，其变化幅度达到了40-50倍。我们首次将源的x射线功率谱密度（PSD）限制在0.1 Hz，对应于质量为10 M⊙的星系x射线双星的时间频率为104 Hz。没有发现额外的高频断裂/弯曲或任何准周期振荡。通过对能量依赖性PSD的详细分析，我们发现在0.3-3 keV波段的所有能量范围内，PSD归一化、高频PSD斜率以及弯曲频率保持一致，表明存在恒温日冕。这些重要的发现对AGN中x射线发射和变异性的当前模型施加了关键的限制。

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 Letters

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