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梅锋
发布时间:2018-05-10 浏览:
梅锋  
教授  

  

教育背景:

2012年6月获得华南师范大学和新加坡国立大学联合培养博士学位

2012年8月至2015年8月在美国加州大学莫塞德分校自然科学学院,新加坡国立大学量子技术中心,南京大学固态微结构国家实验室做博士后和访问学者。

2015年9月到2016年9月任中山大学特聘副研究员

2016年11月加入山西大学激光光谱研究所

研究方向:

    超冷原子分子物理;凝聚态物理;量子光学;量子计算;量子模拟。当前主要研究兴趣为:超冷原子分子体系和量子光学体系中的拓扑物态相关的理论研究,包括(1)拓扑绝缘体;(2)拓扑超导体;(3)拓扑半金属;(4)拓扑光子学;(5)拓扑量子计算。

主持项目:

国家自然科学基金青年基金项目1项

 

办公地址:光电楼530-1

电子邮箱: meifeng@sxu.edu.cn

办公电话:0351-7113890

 

 

 

近期论文成果:

  1. W. Cai, J. Han, Feng Mei*, Y. Xu, Y. Ma, X. Li, H. Wang, Y.P. Song, Z.Y. Xue, Z.Q. Yin, Suotang Jia, and Luyan Sun*,

Observation of Topological Magnon Insulator States in a Superconducting Circuit, 

Physical Review Lett. 123, 080501 (2019).*通信作者)
Selected as ‘Editors’ Suggestion’ and ‘Featured in Physics’.

2. Y. Wang, Y.H. Lu, Feng Mei*, J. Gao, Z.M. Li, H. Tang, S.L. Zhu, Suotang Jia,
and Xian-Min Jin*,
Direct Observation of Topology from Single-Photon Dynamics,
 Physical Review Lett. 122, 193903 (2019).
*通信作者)

3. F.L. Gu, J. Liu, Feng Mei*, Suotang Jia, D.W. Zhang and Z.Y. Xue*,
Synthetic spin–orbit coupling and topological polaritons in JC lattices,
npj Quantum Information 5, 36 (2019).  (*
通信作者)

4. Feng Mei, G. Chen, N. Goldman, Liantuan Xiao and Suotang Jia,
Topological magnon insulator and quantized pumps from strongly-interacting bosons in optical superlattices,
New. J. Phys 21, 095002 (2019).

5. Z.T. Zhang*, Feng Mei*, X.G. Meng, B.L. Liang, and Z.S. Yang,
Effects of decoherence on diabatic errors in Majorana braiding,
Physical Review A 100, 012324 (2019). (*
通信作者)

6. Feng Mei, G. Chen, L. Tian, S.L. Zhu, and Suotang Jia,
Topology-dependent quantum dynamics and entanglement-dependent topological pumping in superconducting qubit chains,
Physical Review A 98, 032323 (2018).

7. Feng Mei, G. Chen, L. Tian, S.L. Zhu, and Suotang Jia,
Robust quantum state transfer via topological edge states in superconducting qubit chains,
Physical Review A
98, 012331 (2018).

8. Y.L. Feng, K. Zhang, J. Fan, Feng Mei*, Chen Gang*, Suotang Jia,
  Quantum mixed phases of a two-dimensional polarized degenerate Fermi gas in an optical cavity,
Scientific Reports 7, 10568 (2017).

9. J. Fan, Y. Zhang, L.R. Wang, Feng Mei*, Chen Gang*, Suotang Jia,
Superfluid-Mott-insulator quantum phase transition of light in a two-mode cavity array with ultrastrong coupling,
Physical Review A 95, 033842 (2017).

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

11. Feng 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).

12.Feng 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).

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

14.Feng 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).

15.Feng Mei, D.W. Zhang, and S.L. Zhu,
Graphene-like physics in optical lattices ,
Chinese Physics B 22, 116106 (2013).
(受邀综述)

16.Feng Mei, V.M. Stojanovi, I Siddiqi, and L Tian,
Analog superconducting quantum simulator for Holstein polarons,
Physical Review B 88, 224502 (2013).

17.Feng 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).

18.Feng 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).

19.Feng 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).

20.Feng 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).

21.Feng 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).

22.Feng Mei, Z.M. Zhang, Y.F. Yu,
Deterministic quantum teleportation and information splitting via a peculiar W-class state,
Chinese Physics B 19, 020308 (2010).

23. Feng Mei, Z.M. Zhang, Y.F. Yu,
Decoherence-Free quantum memory for photonic state using atomic ensembles

International Journal of Quantum Information 7, 811 (2009.

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

25. D.W. Zhang, Feng 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).

26.D.W. Zhang, C.J. Shan, Feng 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).

27. X.Z. Qin, Feng Mei, Y.G. Ke, L. Zhang, C. Lee,
Topological magnon bound states in periodically modulated Heisenberg XXZ chains,
 Physical Review B 96,195134 (2017).

28. X.Z Qin, Feng Mei, Y.G. Ke, L. Zhang, C. Lee,
Topological invariant and cotranslational symmetry in strongly interacting multi-magnon systems, 

New. J. Phys 20, 013003 (2017).

29. W. Nie, Feng Mei, L. Amico, L.C. Kwek,
Scaling of geometric phase versus band structure in cluster-Ising models,
Physical Review E 96, 020106(R) (2017).

30. M.N. Chen, Feng 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,
Journal of Physics: Condens. Matter 29, 035601 (2016).