Polarized X-rays Correlated with Short--Timescale Variability of Cygnus X-1

arXiv - PHYS - Instrumentation and Methods for Astrophysics Pub Date : 2024-08-02 DOI:arxiv-2408.00980

Kaito Ninoyu, Yuusuke Uchida, Shinya Yamada, Takayoshi Kohmura, Taichi Igarashi, Ryota Hayakawa, Tenyo Kawamura

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Abstract

We systematically investigate the variability of polarized X-rays on a timescale of a few seconds in the low/hard state of the black hole binary Cygnus X-1. The correlation between polarization degrees and angles with X-Ray intensity was analyzed using data collected by the Imaging X-ray Polarimetry Explorer (IXPE) in June 2022. Given that X-Ray variability in the low/hard state of Cygnus X-1 is non-periodic, flux peaks were aggregated to suppress statistical fluctuations. We divided the temporal profiles of these aggregated flux peaks into seven time segments and evaluated the polarization for each segment. The results reveal that the polarization degree was 4.6\%$\pm$1.2 and 5.3\%$\pm$1.2 before and after the peak, respectively, but decreased to 3.4\%$\pm$1.1 and 2.7\%$\pm$1.1 in the segments including and immediately following the peak. Furthermore, the polarization angle exhibited a slight shift from approximately 30$^{\circ}$ to $\sim$40$^{\circ}$ before and after the peak. These findings suggest that the accretion disk contracts with increasing X-Ray luminosity, and the closer proximity of the X-Ray emitting gas to the black hole may lead to reduced polarization.

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偏振 X 射线与天鹅座 X-1 的短时标变化率相关

我们系统地研究了黑洞双星天鹅座X-1在低/硬状态下几秒钟尺度上偏振X射线的变化。利用成像X射线偏振探测仪（IXPE）在2022年6月收集的数据分析了偏振度和偏振角与X射线强度之间的相关性。鉴于天鹅座 X-1 低/硬态的 X 射线变化是非周期性的，因此对通量峰值进行了聚合，以抑制统计波动。我们将这些聚合流量峰的时间剖面分为七个时间段，并对每个时间段的偏振情况进行了评估。结果显示，在峰值之前和之后，极化度分别为 4.6%\$pm$1.2 和 5.3%/$pm$1.2，但在包括峰值和紧随峰值之后的时间段，极化度分别下降到 3.4%\$pm$1.1 和 2.7%/$pm$1.1。此外，偏振角在峰值前后出现了轻微的偏移，从大约 30$^{circ}$ 到 $\sim$40$^{circ}$ 。这些发现表明，吸积盘在X射线光度不断增加的情况下会发生收缩，而发射X射线的气体与黑洞的距离越来越近，可能会导致偏振的减弱。

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arXiv - PHYS - Instrumentation and Methods for Astrophysics

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