量子理论 - Barry Sanders

研究方向

我们主要利用量子力学来解释物理现象以及构建相应的理论模型。目前的研究领域包括:利用机器学习控制非线性系统、经典和量子模拟算法、小波理论、collective Rydberg blockade及其在多体物理中的应用、可扩展量子网络、量子游走、拓扑序、量子退火、相干测量、量子信道及其分解、量子密码学以及经典失协等。

研究人员

相关论文

  • Xue, P., Zhang, R., Bian, Z., Zhan, X., Qin, H. & Sanders, B. Localized state in a two-dimensional quantum walk on a disordered lattice. Physical Review A 92, 042316 (2015).
  • Brennen, G., Rohde, P., Sanders, B. & Singh, S. Multiscale quantum simulation of quantum field theory using wavelets. Physical Review A - Atomic, Molecular, and Optical Physics 92, (2015).
  • Gheorghiu, V., De Oliveira, M. & Sanders, B. Nonzero Classical Discord. Physical Review Letters 115, 1-5 (2015).
  • Khalique, A. & Sanders, B. Practical long-distance quantum key distribution through concatenated entanglement swapping with parametric down-conversion sources. Journal of the Optical Society of America B-Optical Physics 32, 2382-2390 (2015).
  • Wang, D. & Sanders, B. Quantum circuit design for accurate simulation of qudit channels. New Journal of Physics 17, (2015).
  • Bian, Z., Li, J., Qin, H., Zhan, X., Zhang, R., Sanders, B. & Xue, P. Realization of Single-Qubit Positive-Operator-Valued Measurement via a One-Dimensional Photonic Quantum Walk. Physical Review Letters 114, 203602 (2015).
  • Alotaibi, H. & Sanders, B. Slowing the probe field in the second window of double-double electromagnetically induced transparency. Physical Review A 91, 043817 (2015).
  • Shaterzadeh-Yazdi, Z., Livadaru, L., Taucer, M., Mutus, J., Pitters, J., Wolkow, R. & Sanders, B. Characterizing the rate and coherence of single-electron tunneling between two dangling bonds on the surface of silicon. Physical Review B - Condensed Matter and Materials Physics 89, 1-12 (2014).
  • de Guise, H., Tan, S., Poulin, I. & Sanders, B. Coincidence landscapes for three-channel linear optical networks. Physical Review A - Atomic, Molecular, and Optical Physics 89, (2014).
  • Sanders, B. & Gerry, C. Connection between the NOON state and a superposition of SU(2) coherent states. Physical Review A 90, 045804 (2014).