Short Biography

Liu Feng, an associate researcher at Beihang University. He holds a bachelor's degree from Shandong University and a doctoral degree from Beihang University. Since April 2025, he has been an associate researcher at Beihang University. His research focuses on efficient polarization technology for SERF atomic spin ensembles under small-size constraints. He has been the principal investigator of 4 projects at the provincial and ministerial level or above, including the National Natural Science Foundation of China's Youth Project, etc., and has participated in national-level research projects such as the Outstanding Young Investigator Fund of the National Natural Science Foundation of China, the National Key Research and Development Program, and the "Science and Technology Innovation 2030" Major Project. He has published over 30 SCI papers, with nearly 20 of them being first author or corresponding author papers. He has also obtained more than 10 national invention patents.

Research Area

1. Efficient polarization technique for atomic spin ensembles under small-size constraints

2. The technology for stabilizing and controlling the polarization of atomic spin ensembles in complex multi-physical-field environments

3. Development of Miniaturized High-Precision Inertial Instruments and Their Navigation Systems

Courses

1. Not Available

Papers & Books

1. Dou Xihui, Liu Feng*, Xu Supeng, Lv Shaowei, Pei Yuzhuo, Meng Jialu, Guo Yuanyuan, Wu Zhihong and Quan Wei. Geometric Optimization of Vapor Cell Stem for Enhanced Nuclear Spin Coherence in SERF Co-Magnetometers[J]. Measurement, 2026, 258: 119374.

2. Jiaqi Wu, Feng Liu*, Lihong Duan, Shaowei Lv, Xihui Dou, and Wei Quan. Transient Heat Transfer Modeling of SERF Co-Magnetometer Atomic Ensemble Based on the Thermoelectric Analogy Method[J]. PHOTONICS, 2025, 12(3):224.

3. Cai Ze, Liu Feng*, Du Pengcheng, Zhang Kai, Yuan Linlin, Fan Wenfeng, Lei Xusheng*, Quan, Wei. Spin Polarization Measurement in SERF Comagnetometer Based on Phase‐Frequency Response of Magnetic Field[J]. Advanced Quantum Technologies, 2024, 7(10): 2400127.

4. Pei Hongyu, Liu Feng*, Fan Wenfeng, Fan Shimiao, Li Xiaoping, Wei Jiayi, Quan Wei. Spin-Decoupling and In-Situ Nuclear Magnetometer with Hyperpolarized Nuclear Spin[J]. ADVANCED QUANTUM TECHNOLOGIES, 2023, 6(9): 202300106.

5. Yao Wei, Sixun Liu, Feng Liu*, Wenfeng Fan, Yueyang Zhai*, Wei Quan. The optimization and stabilization of detuned probe light frequency to suppress electron spin polarization error in SERF co-magnetometer[J]. Sensors and Actuators: A. Physical, 2023, 359:114467.

6. Haoying Pang, Feng Liu*, Wenfeng Fan, et al. Comprehensive analysis of the effects of magnetic field gradient on the performance of the SERF comagnetometer[J]. Optics Express, 2023, 31(4): 5215.

7. Pang Haoying, Fan Wenfeng*, Liu Feng*, Duan Lihong, Liu Sixun, Wang Jing, Quan Wei. Design of Highly Uniform Field Coils Based on the Magnetic Field Coupling Model and Improved PSO Algorithm in Atomic Sensors[J]. TEEE Transactions on Instrumentation and Measurement, 2022, 71: 1502611.

8. Feng Liu, Lihong Duan, Wenfeng Fan, et al. Suppression of the Bias Error Induced by Vapor Cell Temperature in a Spin-Exchange Relaxation-Free Gyroscope[J]. IEEE Sensors Journal, 2022, 22(3): 1990-1997.

9. Feng Liu, Lihong Duan, Wenfeng Fan, et al. Suppression Method of Light Shift in K-Rb Hybrid Optical Pumping SERF Atomic Comagnetometer[J]. IEEE Sensors Journal, 2021, 21(23): 26665-26672.

10. Pei Yuzhuo, Liu Feng*, Dou Xihui, et al. Simulation of Three-Dimensional Polarization Distribution in SERF Inertial Measurement Atomic Spin Ensembles Based on Light Field Manipulation[C]//Journal of Physics: Conference Series. IOP Publishing, 2025, 2988(1): 012007.