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
- Quantum State Transfer over 1200 km Assisted by Prior Distributed Entanglement. Physical Review Letters 128, 170501 (2022).
- Experimental simulation of time and frequency transfer via an optical satellite–ground link at 10 -18 instability. Optica 8, 471 (2021).
- Experimental Quantum Key Distribution Secure Against Malicious Devices. Physical Review Applied 15, 034081 (2021).
- An integrated space-to-ground quantum communication network over 4,600 kilometres. Nature 589, 214-219 (2021).
- Scalable Self-Adaptive Synchronous Triggering System in Superconducting Quantum Computing. IEEE Transactions on Nuclear Science 67, 2148-2154 (2020).
- Long-Distance Free-Space Measurement-Device-Independent Quantum Key Distribution. Physical Review Letters 125, 260503 (2020).
- High-Speed Measurement-Device-Independent Quantum Key Distribution with Integrated Silicon Photonics. Physical Review X 10, 031030 (2020).
- Entanglement-based secure quantum cryptography over 1,120 kilometres. Nature 582, 501-505 (2020).
- Sensitive linear optical sampling system with femtosecond precision. Review of Scientific Instruments 91, (2020).
- Towards satellite-based quantum-secure time transfer. Nature Physics 16, 848-852 (2020).