Short Biography

Heng Yuan received the Ph.D. degree in electrical engineering and computer science from Kyungpook National University, Daegu, South Korea in 2013. Since 2019, he has been a Full-time Professor with Beihang University, Beijing, China. Now he is the Council Member of the Quantum Sensing and Precision Measurement Instrument Division of the China Instrument and Meter Society, Council Member of the Sensor Division of the China Instrument and Meter Society, Member of the Expert Database for Key R&D Projects of the Ministry of Science and Technology.

Research Area

1. Quantum sensing technology

2. Micro-nano smart senor

Courses

1. The Magic of Quantum Instruments

2. Microelectronics and Optoelectronics

3. Intelligent Sensing and Control

4. Micro and Nano Devices and Systems

Papers & Books 

1. Atomic spin precession electro-optic modulation detection based on guided mode resonant lithium niobate metasurfaces, Nanoscale, 17, 2700–2708, 2025.

2. Geometric phase metasurface-based circularly polarized light emitter for optical pumping of chip-scale atomic magnetometer,Optics & Laser Technology 192, 11356, 2025

3. Efficient Real-Time Spin Readout of Nitrogen-Vacancy Centers Based on Bayesian Estimation, IEEE Trans. Indus. Electr. 71(10), 13341-13350, 2024

4. Measurement of Charge State Dynamics in Nitrogen Vacancy Centers Based on Microwave-Pulses-Assisted Longitudinal Relaxations, Adv. Quantum Technol., 7, 2300465, 2024

5. Simultaneous vector magnetometry based on fluorescence polarization of NV centers ensemble in diamond, Appl. Phys. Lett. 125, 144001, 2024

6. Enhancing fluorescence of diamond NV− centers for quantum sensing A multi-layer optical antireflection coating, Diamond & Related Materials, 141, 110584, 2024

7. Near-Field Sensing of Microwave Magnetic Field Phase Difference Enabled by N-V-Center Spins, PHYS. REV. APPLIED 19, 054088, 2023

8. Millihertz magnetic resonance spectroscopy combining the heterodyne readout based on solid-spin sensors, Opti. Exp., 31(2), 3187-3198, 2023

9. Enhancing quantum sensing performance by optimizing the concentration and dephasing time of the NV ensemble in CVD-diamond, Opti. Mat. Exp., 13(2), 393-402, 2023

10. A robust method for evaluation of vapor cell’s performance for magnetometry, Chin. Phys. B, 32, 040703, 2023