利用全球奇异物理搜索光磁力计网络(GNOME)搜索拓扑缺陷暗物质

S. Afach, B. Buchler, D. Budker, C. Dailey, A. Derevianko, V. Dumont, N. L. Figueroa, I. Gerhardt, Z. Gruji'c, Hong Guo, Chuanpeng Hao, P. Hamilton, M. Hedges, D. F. Kimball, Dongok Kim, Sami Khamis, T. Kornack, V. Lebedev, Zheng‐Tian Lu, H. Masia-Roig, M. Monroy, M. Padniuk, C. Palm, Sun Yool Park, Karun V. Paul, A. Penaflor, Xiang Peng, M. Pospelov, Rayshaun Preston, S. Pustelny, T. Scholtes, P. Segura, Y. Semertzidis, D. Sheng, Y. Shin, Joseph A. Smiga, J. Stalnaker, I. Sulai, Dhruv Tandon, Tao Wang, A. Weis, A. Wickenbrock, T. Wilson, Teng Wu, D. Wurm, Wei Xiao, Yucheng Yang, Dongrui Yu, Jianwei Zhang
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引用次数: 12

摘要

利用新建成的地球尺度探测器——用于奇异物理搜索的全球光磁力计网络(GNOME)的数据,首次全面搜索来自奇异天体物理起源场的瞬态信号的结果。GNOME收集的数据包括来自世界各地实验室的光学原子磁力计的相关测量结果。GNOME数据通过网络传播的信号模式与由超轻玻色子(如轴子样粒子(ALPs))组成的奇异场一致。对GNOME连续运行一个月的数据分析发现,由于遇到拓扑缺陷(轴子畴壁),没有统计上显著的信号与预期一致,这为这种暗物质场景提出了新的实验限制。
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Search for topological defect dark matter using the global network of optical magnetometers for exotic physics searches (GNOME)
Results are reported from the first full-scale search for transient signals from exotic fields of astrophysical origin using data from a newly constructed Earth-scale detector: the Global Network of Optical Magnetometers for Exotic physics searches (GNOME). Data collected by the GNOME consist of correlated measurements from optical atomic magnetometers located in laboratories all over the world. GNOME data are searched for patterns of signals propagating through the network consistent with exotic fields composed of ultralight bosons such as axion-like particles (ALPs). Analysis of data from a continuous month-long operation of the GNOME finds no statistically significant signals consistent with those expected due to encounters with topological defects (axion domain walls), placing new experimental constraints on such dark matter scenarios.
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