旋转黑洞是宇宙弦工厂

Hengrui Xing, Y. Levin, A. Gruzinov, A. Vilenkin
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引用次数: 7

摘要

我们考虑宇宙弦环的演化,它被一个更大质量和更紧凑的黑洞捕获。我们表明,在几次重新连接后,产生较小的环的弹射,仍然与黑洞绑定的环在一个几乎周期性的非自相交轨迹上移动,“轨道”。轨道的演变是由于环和旋转黑洞之间的能量和角动量交换。我们证明了这种演化在数学上等价于三维空间中辅助封闭曲线的某一连续变形;对于零黑洞自旋,这种变形是曲线缩短,这已经被数学家广泛研究。黑洞自旋能量的超辐射提取导致了环的生长,而运动弦与视界的摩擦导致了环的衰减。辅助曲线的自交对应于黑洞捕获一个新的弦段,因此增加了一个新的捕获环。这种演化的可能渐近状态被证明是引力波的强发射体。重连是否会阻止达到渐近状态还有待探讨。此外,由于引力波的发射,轨道的形状也在演变,黑洞的反冲改变了轨道,并可能导致自交。我们认为,在很大范围内的无量纲张力$\mu$,弦环被星系中心的超大质量黑洞捕获。这强烈地激发了弦环和黑洞之间相互作用的进一步研究,特别是这一过程对黑洞自旋下降和星系核中产生的弦产生引力波的影响。我们还讨论了原始黑洞捕获的潜在环。
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Spinning black holes as cosmic string factories
We consider the evolution of a cosmic string loop that is captured by a much more massive and compact black hole. We show that after several reconnections that produce ejections of smaller loops, the loop that remains bound to the black hole moves on a nearly-periodic non-self-intersecting trajectory, "the orbit". The orbit evolves due to an energy and angular momentum exchange between the loop and the spinning black hole. We show that such evolution is mathematically equivalent to a certain continuous deformation of an auxiliary closed curve in a 3-dimensional space; for zero black-hole spin this deformation is curve-shortening that has been extensively studied by mathematicians. The evolution features competing effects of loop growth by the superradiant extraction of the black-hole spin energy, and loop decay by the friction of the moving string against the horizon. A self-intersection of an auxiliary curve corresponds to a capture by the black hole of a new string segment and thus an addition of a new captured loop. Possible asymptotic states of such evolution are shown to be strong emitters of gravitational waves. Whether reconnections prevent reaching the asymptotic states remains to be explored. Additionally, the orbit's shape also evolves due to an emission of gravitational waves, and a recoil of the black hole that changes the orbit and likely leads to self-intersections. We argue that for a significant range of the dimensionless tension $\mu$, string loops are captured by supermassive black holes at the centers of galaxies. This strongly motivates further study of interaction between string loops and black holes, especially the influence of this process on the black hole spindown and on the production of gravitational waves by strings created in galactic nuclei. We also discuss potential loop captures by primordial black holes.
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