The following publications are possibly variants of this publication:
- Deep Reinforcement Learning-Assisted Triaxial Magnetic Moment Vector Measurement Using an Atomic MagnetometerZhongyu Wang, Min Zhang, Xiaoyu Li, Jianwei Sheng, Shushan Gao, Huafeng Qin, Jixi Lu. tim, 74:1-12, 2025. [doi]
- A High-Sensitivity Magnetic Moment Measurement System for Large Samples Based on a Single-Axis Atomic MagnetometerYongze Sun, Yuanrui Zhou, Xixi Wang, Dongxu Bai, Yanzhang Wang, Zhijian Zhou. tim, 73:1-11, 2024. [doi]
- In-Situ Measurement of Electrical-Heating-Induced Magnetic Field for an Atomic MagnetometerJixi Lu, Jing Wang 0052, Ke Yang 0002, Junpeng Zhao, Wei Quan, Bangcheng Han, Ming Ding. sensors, 20(7):1826, 2020. [doi]
- Coupling of Magnetic Field Noise in Multilayer Magnetic Shields for Atomic MagnetometerZixuan Wang, Mengshi Zhang, Ke Yang 0002, Tingting Yu, Bihu Lv, Yao Chen, Ning Zhang, Jia Guo, Dezhao Li, Xiaolong Wang. tim, 73:1-8, 2024. [doi]
- In Situ Compensation of Triaxial Magnetic Field Gradient for Atomic MagnetometersKe Yang 0002, Jixi Lu, Yanning Ma, Zixuan Wang, Bowen Sun, Yaoguo Wang, Bangcheng Han. tim, 71:1-8, 2022. [doi]
- Multilayer Spindle Shaped Magnetic Shielding Device for SERF Atomic Magnetometer ApplicationZhengkun Fan, Jun Xu, Xiangyu Kang, Zhanfei Zhang, Yang Li, Xiangmei Dong, Xiumin Gao. access, 8:187876-187881, 2020. [doi]