利用 AstroSat 探测 RX J0440.9+4431 的能量和光度光谱定时特性

Rahul Sharma, Manoj Mandal, Sabyasachi Pal, Biswajit Paul, G. K. Jaisawal, Ajay Ratheesh
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引用次数: 0

摘要

B/X射线双脉冲星RX J0440.9+4431在2022年12月经历了一次巨大的爆发,在15--50 keV的峰值通量为$\sim$2.3 Crab。我们利用四次AstroSat观测研究了RX J0440.9+4431的宽波段时间和光谱特性。探测到的脉冲明显高于 100 keV。发现脉冲轮廓与亮度和能量高度相关。爆发峰值附近脉冲轮廓形状的明显变化表明,RX J0440.9+4431的吸积模式和光束模式可能发生了变化。脉冲分数的均方根值与亮度和能量有关,在20-30 keV附近有一个类似凹面的特征。这一特征的深度随光度变化而变化,表明吸积柱的高度和反射光子的比例发生了变化。宽波段连续谱与带有黑体分量的双分量康普顿化模型或带有热康普顿化分量的双黑体分量模型的拟合效果最佳。在光度为2.6 \times 10^{37}$ erg s$^{-1}$时,探测到了60 mHz的准周期振荡,在1.5 \times 10^{37}$ erg s$^{-1}$时演化为42 mHz。我们发现 QPO 的均方根值与能量有关,总体上呈随能量增加而增加的趋势。我们首次在X射线脉冲星中发现QPO频率随光子能量变化而变化,这对用目前的开普勒模型和拍频模型等解释QPO提出了挑战。因此,需要更多的物理模型来理解 mHz QPO 背后的物理机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Probing the energy and luminosity-dependent spectro-timing properties of RX J0440.9+4431 with AstroSat
The Be/X-ray binary pulsar RX J0440.9+4431 went through a giant outburst in December 2022 with a peak flux of $\sim$2.3 Crab in 15--50 keV. We studied the broad-band timing and spectral properties of RX J0440.9+4431 using four $AstroSat$ observations, where the source transited between subcritical and supercritical accretion regimes. Pulsations were detected significantly above 100 keV. The pulse profiles were found to be highly luminosity- and energy-dependent. A significant evolution in the pulse profile shape near the peak of the outburst indicates a possible change in the accretion mode and beaming patterns of RX J0440.9+4431. The rms pulsed fraction was luminosity- and energy-dependent, with a concave-like feature around 20--30 keV. The depth of this feature varied with luminosity, indicating changes in the accretion column height and proportion of reflected photons. The broad-band continuum spectra were best fitted with a two-component Comptonization model with a blackbody component or a two-blackbody component model with a thermal Comptonization component. A quasi-periodic oscillation at 60 mHz was detected at a luminosity of $2.6 \times 10^{37}$ erg s$^{-1}$, which evolved into 42 mHz at $1.5 \times 10^{37}$ erg s$^{-1}$. The QPO rms were found to be energy dependent with an overall increasing trend with energy. For the first time, we found the QPO frequency varying with photon energy in an X-ray pulsar, which poses a challenge in explaining the QPO with current models such as the Keplarian and beat frequency model. Hence, more physically motivated models are required to understand the physical mechanism behind the mHz QPOs.
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