Fei Ye Associate Professor
email: yef@sustech.edu.cn
Office:Room 228, Research Building 2
Research Field:Topological insulator, the application ofGauge field theory in high-temperature superconducting, the application ofNumerical Methods in magnetic and strongly correlated electron systems, carbonnanotubes and graphene.
YE Fei
Associate Professor
Department of Physics
Tel: 0755-88018229
Email: yef@sustc.edu.cn
Office: Room 228, Faculty Research Building 2
Research Interests
Topological insulator, the application ofGauge field theory in high-temperature superconducting, the application ofNumerical Methods in magnetic and strongly correlated electron systems, carbonnanotubes and graphene.
Educational Background
◆ Ph.D.,in Department of Physics, Shanghai Jiaotong University, 2003;
◆ B.S.,in Department of Physics, Shanghai Jiaotong University, 1997.
Professional Experience
◆ Jan 2010-Aug 2011, Associate Professor, Graduated University of Chinese Academy ofSciences;
◆ Jul 2005-Jan 2010, Associate Researcher, Center for Advanced Study, TsinghuaUniversity;
◆ Aug 2007-Aug 2008, Visiting Scholar, Department of Physics, University of HongKong;
◆ Apr 2006-Jun 2006, Visiting Scholar, University of Padova, Italy;
◆ Feb 2006-Apr 2006, Visiting Scholar, International Centre for Theoretical Physics,Italy;
◆ 2003-2005,Post doctor, Center for Advanced Study, Tsinghua University.
Selected Publications
[1]P. A. Marchetti, Fei Ye, Z. B. Su, and L. Yu. Hole pairing from attraction ofopposite chirality spin vortices: Non-BCS superconductivity in underdopedcuprates. Phys. Rev. B, 84,214525,2011.
[2]B. Xi, Fei Ye, W. Q. Chen, F. C. Zhang, and G. Su. Global phase diagram ofthree-dimensional extended boson hubbard model - a continuous time quantummonte carlo study. Phys. Rev. B 84, 054512, 2011.
[3]J. Zhang, C. M. Jian, Fei Ye, and H. Zhai. Degeneracy of many-body quantumstates in an optical lattice under a uniform magnetic field. Phys. Rev. Lett.,105, 155302, 2010.
[4]Fei Ye, G. H. Ding, H. Zhai, and Z. B. Su. Spin helix of magnetic impurities intwo-dimensional helical metal. EPL (Europhysics Letters), 90, 47001, 2010.
[5]Fei Ye, Y. Chen, Z. D. Wang, and F. C. Zhang. Imbalanced superfluid state in anannular disk. Journal of Physics: Condensed Matter, 21,355701, 2009.
[6]G. H. Ding, Fei Ye, and B. Dong. Quantum phase transition and underscreenedkondo effect in electron transport through parallel double quantum dots.Journal of Physics: Condensed Matter, 21, 455303, 2009.
[7]Y. G. Yao, Fei Ye, X. L. Qi, S. C. Zhang, and Z. Fang. Spin-orbit gap ofgraphene: First-principles calculations. Phys. Rev. B, 75, 041401, 2007.
[8]Fei Ye, B. S. Wang, and Z. B. Su. Symmetry restrictions in the chiralitydependence of physical properties of single-wall nanotubes. Phys. Rev. B,73,155424, 2006.
[9]Fei Ye, B. S. Wang, J. Lou, and Z. B. Su. Correlation effects forsemiconducting single-wall carbon nanotubes: A density matrix renormalizationgroup study. Phys. Rev. B, 72, 233409, 2005.
[10]Fei Ye, B. S. Wang, and Z. B. Su. Aharonov-bohm oscillation and chiralityeffect in optical activity of single-wall carbon nanotubes. Phys. Rev. B, 70,153406, 2004.
[11]Fei Ye, G. H. Ding, and B. W. Xu. Renormalization group study of Isingtransition in double-frequency sine-Gordon model. Commun. Theor. Phys., 40,169, 2003.
[12]Fei Ye, G. H. Ding, and B. W. Xu. Dynamical properties of phonons in the xyspin chain coupled with lattices. Phys. Rev. B, 64, 2001.
Contacts
◆Email : ye.f@sustc.edu.cn
◆Add: Room 229, FacultyResearch Building 2, Department of Physics, South University of Science and Technologyof China, Tangchang Road, Nanshan District, Shenzhen, China