AT2019wey 频发耀斑的光谱和时间分析

IF 10.2 4区物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS

Journal of High Energy Astrophysics Pub Date : 2024-04-17 DOI:10.1016/j.jheap.2024.04.004

Zi-Xu Yang , Liang Zhang , Qing-Cui Bu , Rui-Can Ma , Yue Huang , He-Xin Liu , Wei Yu , Peng-Ju Wang , Lian Tao , Jin-Lu Qu , Xiang Ma , Pan-Ping Li , Pei Jin , Shu-Jie Zhao , Qing-Chang Zhao

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引用次数: 0

摘要

本文比较了2020年8月至2023年3月在AT2019wey观测到的频繁耀斑的定时和光谱特性。我们比较分析了所有10个耀斑的定时特性（特别是连续体分数均方根、宽带噪声特征频率和光谱参数）的演变与硬度比和计数率的关系。根据定时和光谱特性，我们确定了四个进入高软状态的耀斑和六个未进入高软状态的耀斑。在所有耀斑中，连续波分数均方根随计数率的增加而减小，而宽带噪声的特征频率则表现相反。同时，圆盘温度Tin和幂律指数Γ在所有耀斑中都持续上升。在这10次耀斑中，吸积盘的光度并不遵循经典的L∼T4关系，这意味着盘内半径在移动。

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Spectral and timing analysis of the frequent flares experienced by AT2019wey

In this paper, we compare the timing and spectral properties for those frequent flares observed in AT2019wey from 2020 August to 2023 March. We conducted a comparative analysis of the evolution of timing properties, specifically the continuum fractional rms, broadband noise characteristic frequency, and spectral parameters, in relation to the hardness ratio and count rates for all 10 flares. Based on the timing and spectral properties, we have identified four flares entering high soft state and six flares not. For all flares, the continuum fractional rms decreases with increasing count rates whereas characteristic frequency of broadband noise behaves in the opposite way. Meanwhile, the disc temperature $T_{in}$ and powerlaw index Γ consistently increases throughout all flares. During the 10 flares, the luminosity of accretion disc does not follow the canonical $L \sim T^{4}$ relation which implicates a moving disc inner radius.

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来源期刊

Journal of High Energy Astrophysics Earth and Planetary Sciences-Space and Planetary Science

CiteScore

9.70

自引率

5.30%

发文量

审稿时长

65 days

期刊介绍： The journal welcomes manuscripts on theoretical models, simulations, and observations of highly energetic astrophysical objects both in our Galaxy and beyond. Among those, black holes at all scales, neutron stars, pulsars and their nebula, binaries, novae and supernovae, their remnants, active galaxies, and clusters are just a few examples. The journal will consider research across the whole electromagnetic spectrum, as well as research using various messengers, such as gravitational waves or neutrinos. Effects of high-energy phenomena on cosmology and star-formation, results from dedicated surveys expanding the knowledge of extreme environments, and astrophysical implications of dark matter are also welcomed topics.