X 射线双星的硬光谱状态是什么？从 GRRMHD 吸积流模拟及其 X 射线辐射偏振中获得的启示

IF 1.8 4区物理与天体物理 Q3 ASTRONOMY & ASTROPHYSICS

Astrophysics and Space Science Pub Date : 2024-07-09 DOI:10.1007/s10509-024-04333-3

M. Moscibrodzka

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引用次数: 0

摘要

众所周知，X射线双星会表现出不同的光谱状态，而这些光谱状态往往与不同的黑洞吸积模式有关。这些吸积模式的确切几何形状和特性仍不确定。最近在经典 X 射线双星系统天鹅座 X-1 中对 X 射线发射的线性偏振进行的 IXPE 测量，使我们能够以一种独特的方式检验吸积的硬光谱状态模型。我们的研究表明，对处于硬X射线状态的吸积恒星黑洞的广义相对论辐射磁流体动力学（GRRMHD）模拟可能与新的观测信息相一致。在提出的框架中，第一原理模型的自由参数数量有限，而偏振 X 射线观测则对内部热吸积流的视角施加了约束。

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What is the hard spectral state in X-ray binaries? Insights from GRRMHD accretion flows simulations and polarization of their X-ray emission

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What is the hard spectral state in X-ray binaries? Insights from GRRMHD accretion flows simulations and polarization of their X-ray emission

X-ray binaries are known to exhibit different spectral states which are often associated with different black hole accretion modes. The exact geometry and properties of these accretion modes is still uncertain. Recent IXPE measurements of linear polarization of X-ray emission in canonical X-ray binary system Cygnus X-1 allow us to test models for the hard spectral state of accretion in a unique way. We show that general relativistic radiative magnetohydrodynamic (GRRMHD) simulations of accreting stellar black hole in a hard X-ray state may be consistent with the new observational information. In the presented framework, where first-principle models have limited number of free parameters, the polarimetric X-ray observations put constraints on the viewing angle of the inner hot accretion flow.

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来源期刊

Astrophysics and Space Science 地学天文-天文与天体物理

CiteScore

3.40

自引率

5.30%

发文量

106

审稿时长

2-4 weeks

期刊介绍： Astrophysics and Space Science publishes original contributions and invited reviews covering the entire range of astronomy, astrophysics, astrophysical cosmology, planetary and space science and the astrophysical aspects of astrobiology. This includes both observational and theoretical research, the techniques of astronomical instrumentation and data analysis and astronomical space instrumentation. We particularly welcome papers in the general fields of high-energy astrophysics, astrophysical and astrochemical studies of the interstellar medium including star formation, planetary astrophysics, the formation and evolution of galaxies and the evolution of large scale structure in the Universe. Papers in mathematical physics or in general relativity which do not establish clear astrophysical applications will no longer be considered. The journal also publishes topically selected special issues in research fields of particular scientific interest. These consist of both invited reviews and original research papers. Conference proceedings will not be considered. All papers published in the journal are subject to thorough and strict peer-reviewing. Astrophysics and Space Science features short publication times after acceptance and colour printing free of charge.