论文发表

  1. Unsleber, S., Schneider, C., Maier, S., He, Y. -M., Gerhardt, S., Lu, C. -Y., Pan, J. -W., Kamp, M. & Hoefling, S. Deterministic generation of bright single resonance fluorescence photons from a Purcell-enhanced quantum dot-micropillar system. Optics Express 23, 32977-32985 (2015).
  2. Kun, C. & Deng, Y. Higgs mode near superfluid-to-Mott-insulatortransition studied by the quantum Monte Carlo method. Acta Physica Sinica 64, 0180201 (2015).
  3. Xia, H., Shentu, G., Shangguan, M., Xia, X., Jia, X., Wang, C., Zhang, J., Pelc, J., Fejer, M., Zhang, Q., Dou, X. & Pan, J. -W. Long-range micro-pulse aerosol lidar at 1.5 mu m with an upconversion single-photon detector. Optics Letters 40, 1579-1582 (2015).
  4. 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).
  5. Wang, X. -L., Cai, X. -dong, Su, Z. -E., Chen, M. -C., Wu, D., Li, L., Liu, N. -L., Lu, C. -Y. & Pan, J. -W. Quantum teleportation of multiple degrees of freedom of a single photon. Nature 518, 516-519 (2015).
  6. Ma, J., Zhou, M., Yu, Z., Jiang, X., Huo, Y., Zang, K., Zhang, J., Harris, J., Jin, G., Zhang, Q. & Pan, J. -W. Simulation of a high-efficiency and low-jitter nanostructured silicon single-photon avalanche diode. Optica 2, 974-979 (2015).
  7. He, Y. -M., Clark, G., Schaibley, J., He, Y., Chen, M. -C., Wei, Y. -J., Ding, X., Zhang, Q., Yao, W., Xu, X., Lu, C. -Y. & Pan, J. -W. Single quantum emitters in monolayer semiconductors. Nature Nanotechnology 10, 497-502 (2015).
  8. Zahedinejad, E., Schirmer, S. & Sanders, B. Evolutionary algorithms for hard quantum control. Physical Review A 90, 032310 (2014).
  9. Khalique, A. & Sanders, B. Long-distance quantum communication through any number of entanglement-swapping operations. Physical Review A 90, 032304 (2014).
  10. Sanders, B. & Gerry, C. Connection between the NOON state and a superposition of SU(2) coherent states. Physical Review A 90, 045804 (2014).
  11. Manjappa, M., Undurti, S., Karigowda, A., Narayanan, A. & Sanders, B. Effects of temperature and ground-state coherence decay on enhancement and amplification in a \textlessmath\textgreater \textlessmi\textgreater$\Delta$\textless/mi\textgreater \textless/math\textgreater atomic system. Physical Review A 90, 043859 (2014).
  12. Ding, C., Guo, W. & Deng, Y. Reentrance of Berezinskii-Kosterlitz-Thouless-like transitions in a three-state Potts antiferromagnetic thin film. Physical Review B 90, 134420 (2014).
  13. Hu, H., ote, H., Ziff, R. & Deng, Y. Short-range correlations in percolation at criticality. Physical Review E 90, 042106 (2014).
  14. Tang, Y. -L., Yin, H. -L., Chen, S. -J., Liu, Y., Zhang, W. -J., Jiang, X., Zhang, L., Wang, J., You, L. -X., Guan, J. -Y., Yang, D. -X., Wang, Z., Liang, H., Zhang, Z., Zhou, N., Ma, X., Chen, T. -Y., Zhang, Q. & Pan, J. -W. Measurement-Device-Independent Quantum Key Distribution over 200 km. Physical Review Letters 113, 190501 (2014).
  15. Xue, P., Qin, H., Tang, B. & Sanders, B. Observation of quasiperiodic dynamics in a one-dimensional quantum walk of single photons in space. New Journal of Physics 16, 053009 (2014).
  16. Zhao, T. -M., Zhang, H., Yang, J., Sang, Z. -R., Jiang, X., Bao, X. -H. & Pan, J. -W. Entangling Different-Color Photons via Time-Resolved Measurement and Active Feed Forward. Physical Review Letters 112, 103602 (2014).
  17. Trail, C., Almutairi, K., Feder, D. & Sanders, B. Nonlinear phase shifts of light trapped in a two-component Bose-Einstein condensate. Physical Review A 89, 063823 (2014).
  18. Pires, R., Ulmanis, J., afner, S., Repp, M., Arias, A., Kuhnle, E. & Weidemuller, M. Observation of Efimov Resonances in a Mixture with Extreme Mass Imbalance. Physical Review Letters 112, 250404 (2014).
  19. Pang, S., Brun, T., Wu, S. & Chen, Z. -B. Amplification limit of weak measurements: A variational approach. Physical Review A 90, 012108 (2014).
  20. Dhand, I. & Sanders, B. Stability of the Trotter–Suzuki decomposition. Journal of Physics A: Mathematical and Theoretical 47, 265206 (2014).