Measuring Transverse Relaxation Time of Xenon Atoms Based on Single Beam of Laser in Nuclear Magnetic Resonance Gyroscope  

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作  者:钟国宸 刘华 郭阳 李绍良 赵万良 成宇翔 ZHONG Guochen;LIU Hua;GUo Yang;LI Shaoliang;ZHAO Wanliang;CHENG Yuxiang(School of Electronic Information and Electrical Engineering,Shanghai Jiao Tong University,Shanghai 200240,China;Shanghai Aerospace Control Technology Institute,Shanghai Academy of Spaceflight Technology,Shanghai 201109,China)

机构地区:[1]School of Electronic Information and Electrical Engineering,Shanghai Jiao Tong University,Shanghai 200240,China [2]Shanghai Aerospace Control Technology Institute,Shanghai Academy of Spaceflight Technology,Shanghai 201109,China

出  处:《Journal of Shanghai Jiaotong university(Science)》2023年第5期569-576,共8页上海交通大学学报(英文版)

基  金:the Shanghai Aerospace Advanced Technology Joint Research Fund(No.USCAST2019-23)。

摘  要:Nuclear magnetic resonance gyroscope (NMRG) has the characteristics of high precision and miniaturization, and is one of the main applications of quantum technology in the field of navigation. The transverse relaxation time (T_(2)) of the xenon nuclear spin in the atomic cell of the NMRG directly affects the angular random walk of the gyro. Accurate and rapid measurement of T_(2) is conducive to further improvement of gyroscope. At present, for the measurement of T_(2), the schemes of two orthogonal lasers for pumping and detecting are usually used. By applying two fast-switching orthogonal static magnetic fields and a single beam of circularly polarized laser with corresponding wavelength to pump the atomic cell, the xenon nuclear macroscopic magnetic moment Larmor precession is generated. The cesium atoms parametric magnetometer in cell is formed to detect the free induction decay signal generated by nuclear spin precession of xenon atoms. The measurement of T_(2) by a single laser simplifies the measurement equipment compared with traditional method with two lasers. The experimental results show that the T_(2) of xenon atoms is more than 10 s, and the effects of temperature are studied, which lay the foundation for the subsequent improvement of gyro performance.

关 键 词:nuclear magnetic resonance gyroscope(NMRG) transverse relaxation time MAGNETOMETER free-induction decay 

分 类 号:TN219[电子电信—物理电子学]

 

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