Department of Physics, McDonnell Center for the Space Sciences, Washington University, St. Louis, Missouri 63130, USA.
IFAE and BIST, Universitat Autònoma de Barcelona, E-08193 Bellaterra, Barcelona, Spain.
Phys Rev Lett. 2019 Mar 15;122(10):101301. doi: 10.1103/PhysRevLett.122.101301.
We propose a mechanism to generate primordial black holes (PBHs) that is independent of cosmological inflation and occurs slightly below the QCD phase transition. Our setup relies on the collapse of long-lived string-domain wall networks and is naturally realized in QCD axion models with domain wall number N_{DW}>1 and Peccei-Quinn symmetry broken after inflation. In our framework, dark matter is mostly composed of axions in the meV mass range along with a small fraction, Ω_{PBH}≳10^{-6}Ω_{CDM} of heavy M∼10^{4}-10^{7} M_{⊙} PBHs. The latter could play a role in alleviating some of the shortcomings of the standard cosmological model on subgalactic scales. The scenario might have distinct signatures in ongoing axion searches as well as gravitational wave observatories.
我们提出了一种产生原初黑洞 (PBH) 的机制,该机制独立于宇宙学膨胀,并且发生在 QCD 相变略下方。我们的方案依赖于长寿命弦-壁网络的坍缩,并且在具有壁数 N_{DW}>1 的 QCD 轴子模型中和在宇宙学暴胀之后 Peccei-Quinn 对称性破缺的情况下自然地实现。在我们的框架中,暗物质主要由 meV 质量范围内的轴子组成,以及一小部分重质量 M∼10^{4}-10^{7} M_{⊙} 的 PBH,其占比为 Ω_{PBH}≳10^{-6}Ω_{CDM}。后者可能在亚星系尺度上缓解标准宇宙学模型的一些缺点。该情景可能在当前的轴子搜索以及引力波观测站中有明显的特征。
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