超轻暗光子振荡成引力波

IF 2.5 3区 物理与天体物理 Q2 PHYSICS, PARTICLES & FIELDS
Wei Chao , Jing-jing Feng , Huai-ke Guo , Tong Li
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引用次数: 0

摘要

引力波(GWs)的发现为探索早期宇宙物理打开了一扇新窗口。目前,确定引力波的源头及其频谱是协助实验探测随机引力波信号的重要任务。在本文中,我们研究了超轻暗光子(ULDP)进入暗晕中的全球变暖的振荡。假设暗物质由超轻暗光子组成,并且存在由轴子膨胀和/或暗相变产生的原始暗磁场(PDMFs),那么当超轻暗光子通过PDMFs环境时,就会振荡进入GW。我们推导出了ULDP在PDMF中的瞬时振荡所诱发的星系团中GW的局域能量密度。这些随机的本地全球升温表现出类似脉冲的频谱,其频率取决于ULDP的质量,可以在脉冲星定时阵列(PTA)或未来的天基干涉仪中探测到。我们还发现,NANOGrav 合作和其他 PTA 实验观测到的低频全球变暖信号,可以通过早期宇宙中 PDMF 中的超低密度粒子振荡来解决。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Oscillations of ultralight dark photon into gravitational waves
The discovery of gravitational waves (GWs) opens a new window for exploring the physics of the early universe. Identifying the source of GWs and their spectra at present turns out to be important tasks so as to assist the experimental detection of stochastic GW signal. In this paper, we investigate oscillations of the ultralight dark photon (ULDP) into GWs in the dark halo. Assuming dark matter is composed of the ULDP and there are primordial dark magnetic fields (PDMFs) arising from the axion inflation and/or the dark phase transition, then the ULDP can oscillate into the GW when it passes through an environment of PDMFs. We derive the local energy density of GWs in the galaxy cluster induced by the instaneous oscillation of ULDP in the PDMFs. These stochastic local GWs exhibit a pulse-like spectrum, with frequency depending on the mass of the ULDP, and can be detected in Pulsar Timing Arrays (PTAs) or future space-based interferometers. We also find that the low-frequency GW signal observed by the NANOGrav collaboration and other PTA experiments can be addressed by the oscillation of the ULDP in the PDMFs in the early universe.
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来源期刊
Nuclear Physics B
Nuclear Physics B 物理-物理:粒子与场物理
CiteScore
5.50
自引率
7.10%
发文量
302
审稿时长
1 months
期刊介绍: Nuclear Physics B focuses on the domain of high energy physics, quantum field theory, statistical systems, and mathematical physics, and includes four main sections: high energy physics - phenomenology, high energy physics - theory, high energy physics - experiment, and quantum field theory, statistical systems, and mathematical physics. The emphasis is on original research papers (Frontiers Articles or Full Length Articles), but Review Articles are also welcome.
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