Modelling the Energy-dependent broadband variability in the black-hole transient GX 339-4 using Astrosat and NICER

Hitesh Tanenia, Akash Garg, Ranjeev Misra, Somasri Sen
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Abstract

We present a spectro-timing analysis of the black hole X-ray transient GX 339-4 using simultaneous observations from Astrosat and NICER during the 2021 outburst period. The combined spectrum obtained from NICER, LAXPC, and SXT data is effectively described by a model comprising a thermal disk component, hard Comptonization component, and reflection component with an edge. Our analysis of the Astrosat and NICER spectra indicates the source to be in a low/hard state, with a photon index of ~1.64. The Power Density Spectra (PDS) obtained from both Astrosat and NICER observations exhibit two prominent broad features at 0.22 Hz and 2.94 Hz. We generated energy-dependent time lag and fractional root mean square (frms) at both frequencies in a broad energy range of 0.5-30 keV and found the presence of hard lags along with a decrease in variability at higher energy levels. Additionally, we discovered that the correlated variations in accretion rate, inner disc radius, coronal heating rate, and the scattering fraction, along with a delay between them, can explain the observed frms and lag spectra for both features.
利用 Astrosat 和 NICER 模拟黑洞瞬态 GX 339-4 中与能量有关的宽带变异性
我们利用 Astrosat 和 NICER 在 2021 年爆发期的同步观测数据,对黑洞 X 射线瞬变体 GX339-4 进行了光谱定时分析。从 NICER、LAXPC 和 SXT 数据中获得的组合光谱可以用一个模型有效地描述,该模型由热盘分量、硬ptonization 分量和带边缘的反射分量组成。我们对 Astrosat 和 NICER 光谱的分析表明,该源处于低/硬状态,光子指数约为 1.64。从 Astrosat 和 NICER 观测数据中获得的功率密度谱(PDS)在 0.22 Hz 和 2.94 Hz 处显示出两个突出的宽特征。我们在 0.5-30keV 的宽能量范围内生成了这两个频率的随能量变化的时滞和均方根分数(frms),发现存在硬时滞,同时能量水平越高,变异性越小。此外,我们还发现,吸积率、内圆盘半径、日冕加热率和散射分数的相关变化,以及它们之间的延迟,可以解释观测到的这两个特征的分数均方差和时滞光谱。
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