Category
Position
Email
bsanders@ustc.edu.cn
Address
Room B1207-1, Physical Science Park, University of Science & Technology of China, 96 Jin Zhai Rd., Hefei
Introduction
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.
Related Publications
- Topological quantum walks: Theory and experiments. Frontiers of Physics 14, 61301 (2019).
- Efficient verification of bosonic quantum channels via benchmarking. New Journal of Physics 21, 073026 (2019).
- Near-100\% two-photon-like coincidence-visibility dip with classical light and the role of complementarity. Physical Review A 100, 1-10 (2019).
- Robustness of quantum-enhanced adaptive phase estimation. Physical Review A 100, 1-17 (2019).
- Quantum tetrachotomous states: Superposition of four coherent states on a line in phase space. Physical Review A 99, 1-14 (2019).
- Observation of emergent momentum–time skyrmions in parity–time-symmetric non-unitary quench dynamics. Nature Communications 10, 1-8 (2019).
- Spectral singularities of a potential created by two coupled microring resonators. Optics Letters 44, 2024 (2019).
- Polaritonic frequency-comb generation and breather propagation in a negative-index metamaterial with a cold four-level atomic medium. Physical Review A 99, 51802 (2019).
- Observation of Topologically Protected Edge States in a Photonic Two-Dimensional Quantum Walk. Physical Review Letters 121, 100502 (2018).
- Quantum walk on a chimera graph. New Journal of Physics 20, 053039 (2018).