People

Feng Mei

Education Background and Research Experience:

2012-06, Join PhD, South China Normal University and National University of Singapore;

2012-08-2013.08, Postdoctor, University of California, Merced

2013-10-2015.08, Postdoctor, National University of Singapore; Nanjing University.

2015-09-2016.09, Associate research professor, Sun Yat-Sen University

2016.10-, Professor, Shanxi University

Research interests:

Topological states of matter in ultracold atomic, photonic and qubit systems;

Quantum optics; Quantum Simulation; Quantum Computation.

Publications:

1. F. Mei, Z.Y. Xue, D.W. Zhang, L. Tian, C.H. Lee, and S.L. Zhu, Witnessing topological Weyl semimetal phase in a minimal circuit-QED lattice, Quantum Science and Technology 1, 015006 (2016).

2. M.N. Chen, F. Mei, W Su, H.Q. Wang, S.L. Zhu, L Sheng and D.Y Xing,Topological phases of the kicked Harper–Kitaev model with ultracold atoms,  J. Phys.: Condens. Matter 29, 035601 (2016).

3. Y.G. Ke, X.Z. Qin, F. Mei, H.H. Zhong, Y.S. Kivshar, and C.H. Lee, Topological phase transitions and Thouless pumping of light in photonic lattices 10, 995 (2016).

4. P. Xu, X.C. Yang, F. Mei*, and Z.Y. Xue, Controllable high-fidelity quantum state,transfer and entanglement generation in circuit QED, Scientific Reports 6, 18695 (2016).

5. F. Mei, J.B. You, W. Nie, F. Rosario, S.L. Zhu, and L.C. Kwek,Simulation and detection of topological Chern insulator in one-dimensional circuit QED lattice, Physical Review A (Rapid Communication) 92, 041805 (2015).

6. D.W. Zhang, F. Mei, Z.Y. Xue, S.L. Zhu, and Z.D. Wang, Simulation and measurement of fractional particle number in one-dimensional optical lattice, Physical Review A 92, 013612 (2015).

7. F. Mei, D.W. Zhang, and S.L. Zhu, Some topological states in one-dimensional cold atomic system, Annals of Physics 358, 58 (2015).

8. F. Mei, J.B. You, D.W. Zhang, X.C. Yang, R. Fazio, S.L. Zhu, and L.C. Kwek, Topological insulator and particle pumping in a one-dimensional shaken optical lattice, Physical Review A 90, 063638 (2014).

9. D.W. Zhang, C.J. Shan, F. Mei, M.Yang, R.Q. Wang, and S.L. Zhu, Valley-dependent gauge fields for ultracold atoms in square optical superlattices, Physical Review A 89, 015601 (2014).

10. F. Mei, D.W. Zhang, and S.L. Zhu, Graphene-like physics in optical lattices ,Chinese Physics B

22,116106 (2013). (受邀综述)

11. F. Mei, V.M. Stojanovi?, I Siddiqi, and L Tian, Analog superconducting quantum simulator for Holstein polarons, Physical Review B 88, 224502 (2013).
12. F. Mei, S.L. Zhu, Z.M. Zhang, C.H.Oh, and N. Goldman, Simulating Z_2 topological insulators with cold atoms in one-dimensional optical lattice, Physical Review A 85, 013638 (2012).
13. F. Mei, S.L. Zhu, X.L. Feng, Z.M. Zhang, and C.H.Oh, Probing half-odd topological number with cold atoms in non-Abelian optical lattice, Physical Review A 84, 023622 (2011).
14. F. Mei, Y.F.Yu, X.L. Feng, S.L. Zhu, and Z.M. Zhang, Optical quantum computation with cavities in the intermediate coupling region, Europhysics Letters 91, 10001 (2010).
15. F. Mei, Y.F. Yu, X.L. Feng, Z.M. Zhang, and C.H.Oh, Quantum entanglement distribution with hybrid parity gate, Physical Review A 82, 052315 (2010).
16. F. Mei, M. Feng, Y.F. Yu, and Z.M. Zhang, Scalable quantum information processing with atomic ensembles and flying photons, Physical Review A 80, 042319 (2009).

17. Scaling of geometric phase close to multicritical points in cluster-Ising models,W. Nie, F. Mei, L. Amico, L.C. Kwek,  arXiv:1702.02501.
18. J.T. Fan, Y.W. Zhang, L.R. Wang, F. Mei, G. Chen, Suotang Jia,Superfluid-Mott-insulator phase transition of light in a two-mode cavity array with ultrastrong coupling, arXiv:1701.04904.
19. Xizhou Qin, F. Mei, Yongguan Ke, Li Zhang, Chaohong Lee, An Intrinsic Topological Invariant in Strongly Interacting Quantum Systems, arXiv:1611.00205.
20. X.Z. Qin, F. Mei, Y.G. Ke, Li Zhang, and C.H. Lee, Topological magnon bound-states in quantum Heisenberg chains, arXiv: 1602.03217.