U(1)_{L_\mu-L_\tau}$断裂相变、μ介子$g-2$、暗物质、对撞机和引力波

Jie Wang, Jinghong Ma, Jing Gao, Xiao-Fang Han, Lei Wang
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摘要

结合暗物质和μ介子$g-2$异常,我们研究了标准模型的额外$U(1)_{L_\mu-L_\tau}$规对称扩展中的$U(1)_{L_\mu-L_\tau}$破缺相变、引力波谱以及在大型强子对撞机上的直接探测。新的场包括类矢量轻子($E_1,~ E_2,~N$)、$U(1)_{L_\mu-L_\tau}$断裂标量$S$和规管玻色子$Z'$,以及暗物质候选者$X_I$和它的重伙伴$X_R$。对暗物质遗迹密度和μ介子$g-2$异常的联合解释排除了$min(m_{E_1},m_{E_2},m_N,m_{X_R})$和$min(m_{Z'},m_S)$都远大于$m_{X_I}$的区域。在容纳DM遗迹密度和μ介子$g-2$异常的参数空间内,模型可以实现一阶$U(1)_{L_\mu-L_\tau}$断裂相变,其强度对希格斯势的参数很敏感。相应的引力波谱可以达到 U-DECIGO 的灵敏度。此外,大型强子对撞机的直接搜索对类矢量轻子和暗物质的质量谱施加了严格的约束。本作品内容可根据知识共享署名 3.0 许可条款使用。如需进一步传播本作品,必须注明作者、作品名称、期刊引文和 DOI。文章由 SCOAP3 资助,由中国物理学会、中国科学院高能物理研究所、中国科学院近代物理研究所和 IOP Publishing Ltd. 授权出版。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The $U(1)_{L_\mu-L_\tau}$ breaking phase transition, muon $g-2$, dark matter, collider and gravitational wave
Combining the dark matter and muon $g-2$ anomaly, we study the $U(1)_{L_\mu-L_\tau}$ breaking phase transition, gravitational wave spectra, and the direct detection at the LHC in an extra $U(1)_{L_\mu-L_\tau}$ gauge symmetry extension of the standard model. The new fields includes vector-like leptons ($E_1,~ E_2,~ N$), $U(1)_{L_\mu-L_\tau}$ breaking scalar $S$ and gauge boson $Z'$, as well as the dark matter candidate $X_I$ and its heavy partner $X_R$. A joint explanation of the dark matter relic density and muon $g-2$ anomaly excludes the region where both $min(m_{E_1},m_{E_2},m_N,m_{X_R})$ and $min(m_{Z'},m_S)$ are much larger than $m_{X_I}$. In the parameter space accommodating the DM relic density and muon $g-2$ anomaly, the model can achieve a first order $U(1)_{L_\mu-L_\tau}$ breaking phase transition, whose strength is sensitive to the parameters of Higgs potential. The corresponding gravitational wave spectra can reach the sensitivity of U-DECIGO. In addition, the direct searches at the LHC impose stringent bound on the mass spectra of the vector-like leptons and dark matter. Content from this work may be used under the terms of the Creative Commons Attribution 3.0 licence. Any further distribution of this work must maintain attribution to the author(s) and the title of the work, journal citation and DOI. Article funded by SCOAP3 and published under licence by Chinese Physical Society and the Institute of High Energy Physics of the Chinese Academy of Science and the Institute of Modern Physics of the Chinese Academy of Sciences and IOP Publishing Ltd.
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