Accretion flow dynamics and characteristics of MAXI J153–571-spectral analysis using combination of XSPEC and TCAF models

IF 10.2 4区 物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS
Ambrose C. EZE , Romanus N.C. EZE , Augustine E. CHUKWUDE
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引用次数: 0

Abstract

MAXI J153–571 accretion flow consists of Keplerian (optically thick) and sub-Keplerian (optically thin) flow, and their mass accretion rates seem to regulate other accretion flow characteristics. Hard X-rays are produced when the Keplerian seed soft photons are thermally or inverse comptonized in the Compton cloud/post-shock region by hot electrons. The variations/fluctuations of components of the accretion flow during the hard states create propagating Quasi-periodic oscillation (QPO) when their timescales are roughly matched and resonance phenomena occur. The QPO and its frequency are timing properties and the accretion flow spectra-temporal characteristics can be determined via spectral analysis. In this study, we looked into the accretion flow characteristics of MAXI J153–571 during the hard-intermediate state. Spectral analysis of MAXI J153–571 observed by MAXI/GSC, Swift/BAT, and NuSTAR on the same or close-in epochs was carried out. XSPEC and TCAF models were used in fitting/modeling the data. A robust and statistically acceptable fit spectra with a reduced Chi-squared value of ∼ 0.84 – 1.20 and best-fit photon index of 2.0–2.29 was obtained. The track of the accretion flow characteristics was obtained using models’–fitted parameters and MATLAB written codes of physical equations. Some accretion flow characteristics are positively correlated while others are anti-correlated at different phases and their correlation are statistically significant. The correlation of accretion flow characteristics with one another suggests that saturation effects, variation/fluctuations in the accretion flow, and intermittent/flickering behavior of MAXI J153–571 are tied to the variations/fluctuations of the intrinsic properties; mass accretion rates. Moreover, a resonance condition of 0.70 to 0.83 indicates that the cooling and infall timescales are roughly matched and affirms the presence of QPO in the accretion flow. This suggests that the origin of the photon index–QPO frequency (Γ–vQPO) relation is strongly linked to the variation/fluctuations in mass accretion flow rates. Hence, the accretion flow is dynamic, and independent variations/fluctuations of mass accretion rates could regulate the variation/fluctuations of other accretion flow parameters and perhaps, spectral evolution.

MAXI J153-571的吸积流动力学和特征--结合XSPEC和TCAF模型的光谱分析
MAXI J153-571的吸积流由开普勒流(光学厚度)和亚开普勒流(光学厚度)组成,它们的质量吸积率似乎调节着吸积流的其他特征。当开普勒种子软光子在康普顿云/后震荡区被热电子热或反康普顿化时,就会产生硬X射线。在硬态期间,吸积流成分的变化/波动会产生传播的准周期振荡(QPO),当它们的时间尺度大致匹配时,就会发生共振现象。QPO及其频率属于定时特性,可以通过频谱分析确定吸积流的频谱-时间特性。在这项研究中,我们研究了MAXI J153-571在硬-中间状态下的吸积流特征。我们对MAXI/GSC、Swift/BAT和NuSTAR在相同或相近纪元观测到的MAXI J153-571进行了光谱分析。在拟合/模拟数据时使用了 XSPEC 和 TCAF 模型。得到了一个稳健的、统计上可接受的拟合光谱,Chi-squared值减小到0.84-1.20,最佳拟合光子指数为2.0-2.29。利用模型拟合参数和 MATLAB 编写的物理方程代码获得了吸积流特征轨迹。在不同阶段,一些吸积流特征是正相关的,而另一些则是反相关的,它们之间的相关性在统计学上是显著的。吸积流特征之间的相互关系表明,MAXI J153-571 的饱和效应、吸积流的变化/波动以及间歇/闪烁行为与固有特性(质量吸积率)的变化/波动有关。此外,0.70 到 0.83 的共振条件表明冷却和下坠的时间尺度大致匹配,并证实了吸积流中 QPO 的存在。这表明光子指数-QPO频率(Γ-vQPO)关系的起源与质量吸积流率的变化/波动密切相关。因此,吸积流是动态的,质量吸积率的独立变化/波动可以调节其他吸积流参数的变化/波动,也许还可以调节光谱的演化。
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来源期刊
Journal of High Energy Astrophysics
Journal of High Energy Astrophysics Earth and Planetary Sciences-Space and Planetary Science
CiteScore
9.70
自引率
5.30%
发文量
38
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.
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