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Name:Yichong Ren |
Title:Associate Professor |
Position: |
Department:Department of Physics |
E-mail:renyichong@outlook.com |
Phone:13965067752 |
Personal Introduction:
Male, born in 1989. From 2007 to 2016, He received Bachelor and Doctorate degrees from the University of Science and Technology of China. His primary research focus on quantum radar, open quantum system, and quantum precision measurement, especially theoretical and experimental studies on quantum precision measurements based on ferromagnetic-mechanic systems.
Research Interest:
Quantum Information, Quantum Radar, Quantum Precision Measurement, and Open Quantum System.
Courses:
Undergraduate: "University Physics"
Graduate: "Optical Spectroscopy "
Research Projects:
1.Project of National Defense Science and Technology Innovation: Light Radiation Transmission Experiment under Typical Rain and Fog Weather Conditions, 2020-2022, 2 million RMB, principal investigator.
2.Project of National Natural Science Foundation of China: Mechanism of Atmospheric Environment Impact on Quantum Interference Radar, 2020-2023, 200 thousand RMB, principal investigator.
3.Project of National Defense Science and Technology Innovation: Study on Laser Transmission Characteristics at ****, 2020-2023, 5.4 million RMB, second investigator.
Research Papers:
[1] Tao, Z., Abdukirim, A., Dai, C., Wu, P., Mei, H., Luo, C., ... & Ren, Y*. (2023). Does the degree of polarization of vector beams remain unchanged on atmospheric propagation?. Optics Express, 31(20), 33679-33703.
[2] Tao, Z., Ren, Y*., Abdukirim, A., Liu, S., & Rao, R. (2021). Mitigating the effect of atmospheric turbulence on orbital angular momentum-based quantum key distribution using real-time adaptive optics with phase unwrapping. Optics Express, 29(20), 31078-31098.
[3] Tao, Z., Ren, Y*., Abdukirim, A., Liu, S., & Rao, R. (2021). Physical meaning of the deviation scale under arbitrary turbulence strengths of optical orbital angular momentum. JOSA A, 38(8), 1120-1129.
[4] Tao, Z., Ren, Y*., Abdukirim, A., Liu, S., & Rao, R. (2021). Phase-sensitive nonclassical properties in quantum metrology with a displaced squeezed vacuum state. JOSA B, 38(5), 1662-1668.
[5] Ren, Y. C*., Wang, S., Fan, H. Y., & Chen, F. (2017). Ket–Bra entangled state method for solving master equation of finite-level system. Quantum Information Processing, 16, 1-20.
Honors:
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