GRS 1716-249 中黑洞的修正自旋与新距离

S. J. Zhao, L. Tao, Q. Q. Yin, S. N. Zhang, R. C. Ma, P. P. Li, Q. C. Zhao, M. Y. Ge, L. Zhang, J. L. Qu, S. Zhang, X. Ma, Y. Huang, J. Q. Peng, Y. X. Xiao
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引用次数: 0

摘要

GRS 1716-249是一个低质量X射线双星中的恒星质量黑洞,在2016/17年经历了一次增大爆发。在本文中,我们利用 Insight-HXMT 和 NuSTAR 的同步观测来确定其基本参数。观测是在爆发最柔和的时期进行的,光谱显示出清晰的热盘发射和反射特征。我们用 kerrbb2+ relxill 模型对 X 射线能谱进行了连续波和反射波联合拟合。由于这个星源的距离有可能被低估了,我们在研究中使用了最新的距离参数 6.9 kpc,而在以前的工作中,距离参数被设定为 2.4 kpc。通过光谱拟合将黑洞质量固定在6.4 $M_{\rm\odot}$,我们观察到推导出的自旋与距离有很强的依赖性:假定距离为2.4 kpc时为$a_{*}=0.972_{-0.005}^{+0.004}$,假定距离为6.9 kpc时为$a_{*}=0.464_{-0.007}^{+0.016}$,置信度为90%。如果考虑到距离和黑洞质量的不确定性,自旋的范围会更大,$a_{*}$ < 0.78。新距离的拟合结果表明,GRS 1716-249蕴藏着一个中等自旋的黑洞,其周围有一个倾斜的($i\sim40-50^\{circ}$)吸积盘。此外,我们还发现,如果仅仅使用反射分量拟合的方法,而忽略吸积盘分量对自旋的约束,将会导致极高的自旋。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Revised Spin of the Black Hole in GRS 1716-249 with a New Distance
GRS 1716-249 is a stellar-mass black hole in a low-mass X-ray binary that underwent a gaint outburst in 2016/17. In this paper we use simultaneous observations of Insight-HXMT and NuSTAR to determine its basic parameters. The observations were performed during the softest part of the outburst, and the spectra show clear thermal disk emission and reflection features. We have fitted the X-ray energy spectra using the joint fitting method of the continuum and reflection components with the kerrbb2+ relxill model. Since there is a possibility that the distance to this source was previously underestimated, we use the latest distance parameter of 6.9 kpc in our study, in contrast to previous work in which the distance was set at 2.4 kpc. Through spectral fitting of fixing black hole mass at 6.4 $M_{\rm \odot}$, we observe a strong dependence of the derived spin on the distance: $a_{*}=0.972_{-0.005}^{+0.004}$ at an assumed distance of 2.4 kpc and $a_{*}=0.464_{-0.007}^{+0.016}$ at an assumed distance of 6.9 kpc, at a confidence level of 90%. If considering the uncertainties in the distance and black hole mass, there will be a wider range of spin with $a_{*}$ < 0.78. The fitting results with the new distance indicate that GRS 1716-249 harbors a moderate spin black hole with an inclined ($i\sim 40-50^{\circ}$) accretion disk around it. Additionally, we have also found that solely using the method of the reflection component fitting but ignoring the constraints on the spin from the accretion disk component will result in an extremely high spin.
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