Principal investigator
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.
Members
Related Publications
- Unity-Efficiency Parametric Down-Conversion via Amplitude Amplification. Physical Review Letters 118, 1-6 (2017).
- Accurate and precise characterization of linear optical interferometers. Journal of Optics (United Kingdom) 18, (2016).
- Asked to speak in a developing country? Say yes!. Physics Today 69, 10-12 (2016).
- Building a relationship with China. Physics World 29, 17 (2016).
- Creating cat states in one-dimensional quantum walks using delocalized initial states. New Journal of Physics 18, 093025 (2016).
- Designing High-Fidelity Single-Shot Three-Qubit Gates: A Machine-Learning Approach. Physical Review Applied 6, 054005 (2016).
- Enhanced nonlinear susceptibility via double-double electromagnetically induced transparency. Physical Review A 94, 053832 (2016).
- Long-distance quantum-key-distribution using concatenated entanglement swapping with practical resources. 9980, 99800R (2016).
- Precise space–time positioning for entanglement harvesting. New Journal of Physics 18, 043031 (2016).
- Propagation of radiation pulses through gas-plasma mixtures. Journal of Physics B: Atomic, Molecular and Optical Physics 49, (2016).