高质 X 射线双星和引力波源中黑洞的共同起源

K. Belczynski, Christine Done, S. Hagen, J. Lasota, K. Sen
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引用次数: 0

摘要

黑洞(BH)高质 X 射线双星(HMXB)系统很可能是 LIGO/Virgo/KAGRA (LVK)在引力波中探测到的 BH-BH 合并的祖先。然而,合并的 BH 的质量($)要比 HMXB 中的 BH 高($),而且通常表现出较低的自旋 BH 0.25$,尾值较大,而 HMXB 中的 BH 通常被认为是自旋 BH 0.9$。这可能表明这两类系统属于不同的种群,但我们在这里证明情况未必如此。质量上的差异很容易解释,因为已知的HMXB-BH都位于金属度相对较高的星系中,所以它们的原生恒星会受到风的强烈质量损失,导致核心塌缩时BH的质量相对较低。相反,LVK 也能探测到来自低金属度星系的 BH,众所周知,这些星系会自然产生质量更大的恒星源 BH。然而,自旋的差异则更难解释。在恒星内部具有高效角动量传输的模型中,LVK 和 HMXB BH 的祖先都是缓慢旋转的。已知的 HMXB 的轨道周期太长,无法实现有效的潮汐自旋,也不太可能经历过显著的吸积自旋。相反,我们的研究表明,BH自旋的推导值在很大程度上取决于如何模拟HMXB吸积盘的发射。我们认为,由于从未观测到 Cyg X-1 处于软光谱状态,因此适当的光谱模型必须考虑到圆盘光球的康普顿化。我们的研究表明,这种模型与低自旋值是一致的,即:$a_ BH 这一点最近被其他研究小组对 Cyg X-1 和 LMC X-1 的研究证实了,在这里我们将证明 M33 X-7 也是如此。我们的结论是,所有已知的 HMXB BH 都可以表现出低自旋,这与恒星演化模型的结果是一致的。因此,这项工作中的观测结果与 LVK BHs 和 HMXB BHs 属于同一族群的情况是一致的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Common origin for black holes in both high mass X-ray binaries and gravitational-wave sources
Black-hole (BH) high-mass X-ray binary (HMXB) systems are likely to be the progenitors of BH-BH mergers detected in gravitational waves by LIGO/Virgo/KAGRA (LVK). Yet merging BHs reach higher masses ($ than BHs in HMXBs ($ and typically exhibit lower spins BH 0.25$ with a larger values tail) than what is often claimed for BHs in HMXBs BH 0.9$). This could suggest that these two classes of systems belong to different populations, but here we show that this may not necessarily be the case. The difference in masses is easily explained as the known HMXB-BHs are in galaxies with relatively high metallicity, so their progenitor stars are subject to strong mass loss from winds, leading to relatively low-mass BH at core collapse. Conversely, LVK is also able to detect BHs from low-metallicity galaxies that are known to naturally produce more massive stellar-origin BHs. However, the difference in spin is more difficult to explain. Models with efficient angular momentum transport in stellar interiors produce slowly spinning progenitors for both LVK and HMXB BHs. Known HMXBs have orbital periods that are too long for efficient tidal spin-up and are also unlikely to have undergone significant accretion spin-up. Instead, we show that the derived value of the BH spin depends strongly on how the HMXB accretion disc emission is modelled. We argue that since Cyg X-1 is never observed to be in a soft spectral state, the appropriate spectral models must take into account the Comptonisation of the disc photosphere. We show that such models are consistent with low spin values, namely: $a_ BH This was recently confirmed by other teams for both Cyg X-1 and LMC X-1 and here we show this is also the case for M33 X-7. We conclude that all known HMXB BHs can exhibit a low spin in accordance with the results of stellar evolution models. Hence, the observations presented in this work are consistent with the scenario where LVK BHs and HMXB BHs belong to the same population.
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