自相互作用轴子云超辐射生长的重整化群分析

Hidetoshi Omiya, Takuya Takahashi, Takahiro Tanaka
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引用次数: 14

摘要

人们对考虑快速旋转黑洞周围的超轻标量场(尤其是轴子)有浓厚的兴趣,因为黑洞周围的轴子凝聚(轴子云)有可能观测到引力波。基于这一考虑,我们提出了一种研究快速旋转黑洞周围具有自相互作用的超轻标量场动力学的新方法,即动态重整化群方法。我们发现,当我们考虑云从单一超辐射模式绝热增长时,对于相对论性云,由于自相互作用引起的轴子散射所引起的超辐射不稳定性的饱和在弱非线性状态下不会发生。这可能表明,对于相对论性轴子云,一种被称为Bosenova的爆炸性现象可能不可避免地发生,至少在其进化史上发生过一次。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Renormalization group analysis of superradiant growth of self-interacting axion cloud
There are strong interests in considering ultra-light scalar fields (especially axion) around a rapidly rotating black hole because of the possibility of observing gravitational waves from axion condensate (axion cloud) around black holes. Motivated by this consideration, we propose a new method to study the dynamics of an ultra-light scalar field with self-interaction around a rapidly rotating black hole, which uses the dynamical renormalization group method. We find that for relativistic clouds, saturation of the superradiant instability by the scattering of the axion due to the self-interaction does not occur in the weakly non-linear regime when we consider the adiabatic growth of the cloud from a single superradiant mode. This may suggest that for relativistic axion clouds, an explosive phenomenon called the Bosenova may inevitably happen, at least once in its evolutionary history.
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