关于黑洞瞬变体 MAXI J1820+070 的 X 射线变异中特征频率范围向更高光子能量的扩展

Chenxu GaoShanghai Astronomical Observatory, Wenfei YuShanghai Astronomical Observatory, Zhen YanShanghai Astronomical Observatory
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引用次数: 0

摘要

在黑洞X射线双星的硬态和中间态中,我们看到了X射线傅立叶功率谱状态的能量依赖性和带限噪声(BLN)成分的特征频率。在此,我们报告了我们对黑洞瞬态MAXI J1820$+$070在2018年爆发期间的\emph{Insight}-HXMT观测结果的分析,当时该源的硬X射线最亮。我们发现低频($$ 10 Hz)BLN成分的变化趋势相反,即随着光子能量的增加,频率分别下降和上升,最高可达200 keV以上。这就确定了在功率谱中由多个 BLN 形成的功率高原在光子能量越高时有明显的双向拓宽。最高 BLN 分量的特征频率随光子能量的增加而增加的趋势被解释为,相应的种子光子被上射到相对更高的能量,而这些种子光子起源于之前的冠层中相对更中心的区域。根据同样的框架,低频 BLN 分量的特征频率随光子能量增加而下降的趋势,可以解释为相应的上散射到更高光子能量的种子光子来自盘流的更远处,但与观测者的位置相反,位于日冕中心的另一侧。光子能量越高,功率高原就越宽,分数变异性就越小,可能接近于软状态下的功率定律噪声(PLN)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
On the Broadening of the Characteristic Frequency Range towards Higher Photon Energies in the X-ray Variability of the Black Hole Transient MAXI J1820+070
Energy-dependence of X-ray Fourier power spectral states and the characteristic frequencies of the Band-Limited Noise (BLN) components have been seen in the hard state and intermediate states of black hole X-ray binaries. Here we report our analysis of the \emph{Insight}-HXMT observations of the black hole transient MAXI J1820$+$070 during its 2018 outburst when the source was brightest in hard X-rays. We found opposite trends of the low-frequency ($<$ 0.1 Hz) and the high-frequency ($>$ 10 Hz) BLN components, i.e., decreasing vs. increasing in frequency with increasing photon energy up to beyond 200 keV, respectively. This establishes an apparent two-way broadening of the power plateau formed by multiple BLNs in the power spectra towards higher photon energies. The trend of increasing characteristic frequency of the highest BLN component with increasing photon energy has been interpreted as due to that the corresponding seed photons which are up-scatted to relatively higher energies originate in a region relatively more central in the corona previously. Following the same framework, the decreasing trend of the characteristic frequency of the low-frequency BLN component with increasing photon energy can be interpreted as due to that the corresponding seed photons which are up-scattered to higher photon energies originate from further out in the disk flow but on the opposite side of the central corona as to the observer. The opposite trends then implies that the the plateau in the power spectra formed by the multiple BLNs represents the radial extension of the accretion disk that contributes seed photons which produce the observed BLNs; the higher the photon energy is, the wider the power plateau and the smaller the fractional variability are, probably approaching to a Power-Law Noise (PLN) seen in the soft state.
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