类别
职称
邮件
bsanders@ustc.tsg211.com
地址
物质楼B1207-1
个人简介
Our research is focused on using the rich theory of Quantum Mechanics to advance the knowledge of physical phenomena, protocols and their implementation. Current areas of research include machine learning to control nonlinear quantum systems, classical and quantum algorithms for simulation, wavelet theory, collective Rydberg blockade and its application to many body Physics, scalable quantum networks, quantum walks, topological orders, quantum annealing, measures of coherence, quantum channels and their decomposition, quantum cryptography and classical discord.
相关论文
- Berry Curvature and Bulk-Boundary Correspondence from Transport Measurement for Photonic Chern Bands. Physical Review Letters 131, 1-7 (2023).
- Topological Spin Texture of Chiral Edge States in Photonic Two-Dimensional Quantum Walks. Physical Review Letters 129, 1-6 (2022).
- Cloning of Quantum Entanglement. Physical Review Letters 125, 210502 (2020).
- Multiple uncertainty relation for accelerated quantum information. Physical Review D 102, 96009 (2020).
- Creating deterministic collisions between two orbiting bodies. Physical Review A 102, 043113 (2020).
- Nonlinear frequency conversions via weak surface polaritonic wave breaking in a hybrid plasmonic waveguide. Optics Letters 45, 5432 (2020).
- Analog-quantum feature mapping for machine-learning applications. Physical Review Applied 14, 1 (2020).
- qkdSim, a Simulation Toolkit for Quantum Key Distribution Including Imperfections: Performance Analysis and Demonstration of the B92 Protocol Using Heralded Photons. Physical Review Applied 14, 024036 (2020).
- Quasi-fine-grained uncertainty relations. New Journal of Physics 22, 073063 (2020).
- Randomized benchmarking for qudit Clifford gates. New Journal of Physics 22, 063014 (2020).