物理
磁强计
激光线宽
尖点(奇点)
灵敏度(控制系统)
模式(计算机接口)
同步(交流)
领域(数学)
旋磁比
自旋(空气动力学)
计算物理学
光学
点(几何)
磁矩
核磁共振
激发
磁场
凝聚态物理
职位(财务)
消磁场
光电子学
叠加原理
心磁图
作者
Anonymous,Jinwei Rao,Lijun Yan,X. L. Wang,Lihui Bai,Bimu Yao,Shishen Yan,Lihui Bai
摘要
Ultrasensitive magnetometers based on spin resonances have led to remarkable achievements. However, the field responsivities of these spin resonances are inherently constrained by these particles' gyromagnetic ratios, such as the electron, with a constant gyromagnetic ratio of γ_{e}=2π×28 GHz/T. Here, we demonstrate an ultrasensitive magnetometer based on the cusp point (CP) of photon-magnon synchronization modes (PMSMs). The PMSM's field responsivity at the CP is enhanced to 37γ_{e} and further amplified to 236γ_{e} by utilizing the sixth-order oscillating mode of the PMSM. Moreover, the emission linewidth of the PMSM can be reduced to 0.06 Hz, resulting in excellent sensitivity to weak magnetic fields. These outstanding properties position our magnetometer to potentially achieve superior sensitivity to conventional magnetometers. Our Letter introduces a cost-effective prototype for the next generation of magnetometry and may advance scientific research and technologies that rely on ultrasensitive magnetic field detection.
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