激光与光电子学进展, 2020, 57 (23): 230002, 网络出版: 2020-12-08
高灵敏度微型光学原子磁力仪研究进展 下载: 2032次
Research Progress on High Sensitivity and Miniature Optical-Atomic Magnetometer
原子与分子物理学 光学原子磁力仪 塞曼效应 微型化 高灵敏 磁场探测 atomic and molecular physics optical-atomic magnetometer Zeeman effect micromation high sensitivity magnetic field detection
摘要
磁场作为磁性物质的基本特性之一,备受人们关注,在**、医疗、工业等领域都有着广泛的应用。对高灵敏度微型光学原子磁力仪的基本原理、发展进程和应用前景进行了梳理。阐述了微型光学原子磁力仪的工作机理及系统组成,论述了原子气室制作方法及优化方法、原子气室加热方法、磁场信号检测等关键技术的发展历程,对高灵敏度微型光学原子磁力仪的最新研究进展进行综述,并对微型光学原子磁力仪的应用前景进行了展望。
Abstract
As one of the basic characteristics of magnetic materials, magnetic field has attracted people's attention, and has been widely used in military, medicine, industry, and other field. The basic principles, development process, and application prospects of the high sensitivity micro-optical-atomic magnetometer are sorted out. First, the working mechanism and system composition of the miniature optical-atomic magnetometer are described. Second, the development processes of key technologies such as atomic gas cell fabrication and optimization methods, atomic gas cell heating methods, and magnetic field signal detection methods are discussed. Finally, the latest research progress of the magnetometer is reviewed, and the application prospects of the miniature optical-atomic magnetometer are prospected.
吴梓楠, 赵正钦, 温钟平, 覃添, 欧中华, 周晓军, 刘永, 岳慧敏. 高灵敏度微型光学原子磁力仪研究进展[J]. 激光与光电子学进展, 2020, 57(23): 230002. Zinan Wu, zhengqin Zhao, Zhongping Wen, Tian Qin, Zhonghua Ou, Xiaojun Zhou, Yong Liu, Huimin Yue. Research Progress on High Sensitivity and Miniature Optical-Atomic Magnetometer[J]. Laser & Optoelectronics Progress, 2020, 57(23): 230002.