QCD axion and gravitational waves in light of NANOGrav results

Nicklas Ramberg, L. Visinelli
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引用次数: 21

Abstract

The North American Nanohertz Observatory for Gravitational Waves (NANOGrav) collaboration has recently reported strong evidence for a stochastic process affecting the 12.5 yr dataset of pulsar timing residuals. We show that the signal can be interpreted in terms of a stochastic gravitational wave background emitted from a network of axionic strings in the early Universe. The spontaneous breaking of the Peccei-Quinn symmetry originate the axionic string network and the QCD axion, the dark matter particle in the model. We explore a non-standard cosmological model driven by an exotic field $\phi$, in which the axion field provides the dark matter observed. For an equation of state $w_\phi < 1/3$, the QCD axion mass is smaller than expected in the standard cosmology and the GW spectrum from axionic strings is larger. We assess the parameter space of the model which is consistent with the NANOGrav-$12.5\,$yr detection, which can be explained within 95\% limit by a QCD axion field evolving in a dust-like scenario, as well as within 68\% limit by a QCD axion field evolving in a curvature-dominated background.
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基于nanogravity结果的QCD轴子和引力波
北美纳赫兹引力波天文台(nanogravity)合作项目最近报告了一个影响脉冲星时间残差12.5年数据集的随机过程的有力证据。我们表明,该信号可以解释为随机引力波背景发射从一个网络的轴弦在早期宇宙。Peccei-Quinn对称的自发破缺起源于轴子弦网络和QCD轴子,即模型中的暗物质粒子。我们探索了一个由奇异场$\phi$驱动的非标准宇宙学模型,其中轴子场提供观测到的暗物质。对于状态方程$w_\phi < 1/3$, QCD轴子质量小于标准宇宙学的期望,而轴子弦的GW谱更大。我们对模型的参数空间进行了评估,该模型的参数空间与nanogrv - 12.5\,$yr的检测结果一致,可以在95%的范围内解释在尘埃样场景中演化的QCD轴子场,以及在曲率主导背景下演化的QCD轴子场。
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