基于 NICER 数据的 MAXI J1535-571 的 B 型和 C 型 QPO 小波结果的不同表现

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

Journal of High Energy Astrophysics Pub Date : 2024-02-21 DOI:10.1016/j.jheap.2024.02.002

Xiao Chen, Wei Wang

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引用次数: 0

摘要

除了功率密度谱之外，小波分析是研究光曲线中准周期信号的另一种方法，但在黑洞X射线瞬变中却很少使用。本文基于对候选黑洞MAXI J1535-571的NICER观测，对X射线时间特征和准周期振荡（QPO）进行了小波分析。根据小波结果的置信度对光变曲线进行分离，我们发现置信度以上和置信度以下的光变曲线段在PDS、硬度比和平均计数上存在显著差异。S因子（定义为有效振荡时间与总时间之比）在C型和B型QPO之间显示出不同的数值。根据我们的结果，无论置信度设置为 95% 还是 68%，B 型 QPO 的 S 因子都非常接近或等于 0，而 C 型 QPO 的 S 因子则明显较高，尤其是在置信度为 68% 的情况下。我们讨论了小波结果对解析黑洞X射线双星中B型和C型QPO的影响。

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Different behaviors of wavelet results for type-B and type-C QPOs of MAXI J1535-571 based on NICER data

Wavelet analysis, in addition to power density spectra, is another method to study the quasi-periodic signals in the light curves, but has been rarely used in black hole X-ray transients. We performed wavelet analysis of X-ray timing features and quasi-periodic oscillations (QPOs) based on NICER observations of the black hole candidate MAXI J1535-571 in this paper. Separating the light curves by the confidence level of wavelet results, we find significant differences exist in the PDS, hardness ratio and mean count between light curve segments above and below the confidence level. The S-factor, which is defined as the ratio of the effective oscillation time and the total time, demonstrates distinct values between type-C and type-B QPOs. Based on our results, the S-factor for type-B QPO is very close or equal to 0, no matter the confidence level is set as 95% or 68%, while the S-factor of type-C QPO is significantly higher, especially in the 68% confidence level case. We discuss the implications of the wavelet results on resolving type-B and type-C QPOs in black hole X-ray binaries.

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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.