Liao Sheng-kai, male, born in July 1983 in Hunan. Associate Professor of University of Science and Technology of China. I received a doctorate degree in engineering from the Chinese Academy of Sciences in 2010.My research field is quantum science and study in space electronics system and quantum communication system. I have participated in projects such as HJ1B satellite, Tiangong2 and Quantum Science Experiment Satellite. In the Quantum Science Experiment Satellite Project, I am the chief designer of Quantum Experimental Control and Processor payload, the deputy chief designer of Quantum Entangled Transmitter payload, the chief designer of Quantum Communication Terminal in the ground station; In Tingong2 space lab Quantum Key Distribution Project I am the chief designer of electrical system. In recent years, I published more than 10 Articles research papers in the Nature (1), Nature Photonics (1), Physical Review Letters (3), IEEE TRANSACTIONS ON NUCLEAR SCIENCE (3), Optics Express (1) and other journals .
Related Publications
- Free-space quantum key distribution in urban daylight with the SPGD algorithm control of a deformable mirror. Optics Express 26, 18897 (2018).
- Experimental free-space quantum key distribution with efficient error correction. Optics Express 25, 10716 (2017).
- Satellite-to-Ground Entanglement-Based Quantum Key Distribution. Physical Review Letters 119, 200501 (2017).
- Ground-to-satellite quantum teleportation. Nature 549, 70–73 (2017).
- Long-distance free-space quantum key distribution in daylight towards inter-satellite communication. Nature Photonics 11, 509-513 (2017).
- Satellite-based entanglement distribution over 1200 kilometers. Science 356, 1140-1144 (2017).
- Satellite-to-ground quantum key distribution. Nature 549, 43–47 (2017).
- Experimental round-robin differential phase-shift quantum key distribution. Physical Review A 93, 030302 (2016).
- Post-processing Free Quantum Random Number Generator Based on Avalanche Photodiode Array. Chinese Physics Letters 33, 030303 (2016).
- Experimental Unconditionally Secure Bit Commitment. Physical Review Letters 112, 010504 (2014).