磁制动驱动的低质量 X 射线双星轨道周期变化

Yun-Ning Fan, Yong Shao and Wen-Cong Chen
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引用次数: 0

摘要

磁制动(MB)在推动低质量 X 射线双星(LMXBs)的演化中发挥着重要作用。修改后的磁制动处方,即对流和旋转增强(CARB)模型,在再现持续中子星(NS)LMXBs 的质量转移率方面非常成功。在这项工作中,我们研究了CARB MB处方能否解释一些具有观测到的轨道周期导数的NS和黑洞(BH)LMXB的形成和演化。利用 MESA 代码,我们对六个 NS 和三个 BH LMXB 进行了详细的双星演化模拟。我们的模拟发现,CARB MB处方能够成功地再现观测到的四颗NS LMXB和一颗BH LMXB的供体星质量、轨道周期和周期导数。我们计算出的有效温度与探测到的两个 NS LMXB 和一个 BH LMXB 的光谱类型十分吻合。然而,标准的 MB 模型很难产生那些经历了快速轨道收缩或膨胀的 LMXB 的观测周期导数。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Orbital-period Changes of Low-mass X-Ray Binaries Driven by Magnetic Braking
Magnetic braking (MB) plays an important role in driving the evolution of low-mass X-ray binaries (LMXBs). The modified MB prescription, the convection and rotation boosted (CARB) model, is very successful in reproducing the detected mass-transfer rates of persistent neutron star (NS) LMXBs. In this work, we investigate whether the CARB MB prescription could account for the formation and evolution of some NS and black hole (BH) LMXBs with an observed orbital-period derivative. Using the MESA code, we perform a detailed binary evolution model for six NS and three BH LMXBs. Our simulations find that the CARB MB prescription can successfully reproduce the observed donor-star masses, orbital periods, and period derivatives of four NS LMXBs and one BH LMXB. Our calculated effective temperatures are in good agreement with the detected spectral types of two NS LMXBs and one BH LMXB. However, the standard MB model makes it difficult to produce the observed period derivatives of those LMXBs experiencing a rapid orbital shrinkage or expansion.
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