Dr. Sen Zhou

Professor in Physics

Institute of Theoretical Physics
Chinese Academy of Sciences
55 Zhong Guan Cun East St
P. O. Box 2735
Beijing 100190, China

Office: ITP Old Building 208
Tel: (010) 6255-0766
Fax: (010) 6256-2587
Email: zhousen@itp.ac.cn
Curriculum Vitae in PDF


Professional Experience:

Research Interests:

Research Grants:

Journal Publications:

  1. K. Jiang, S. Zhou, X. Dai, and Z. Wang, Phys. Rev. Lett. 120, 157205 (2018) (also available at arXiv:1710.05035 )
    Antiferromagnetic Chen insulators in non-centrosymmetric systems.
  2. S. Zhou, K. Jiang, H. Chen, and Z. Wang, Phys. Rev. X 7, 041018 (2017) (also available at arXiv:1702.07070 )
    Correlation effects and hidden spin-orbit entangled electronic order in parent and electron-doped iridates Sr2IrO4.
  3. S. Zhou, L. Liang, and Z. Wang, arXiv:1605.03597
    Doublon-holon binding as origin of Mott transition and fractionalized spin liquid -- Asymptotic solution of the Hubbard model in the limit of large coordination.
  4. K. Jiang, Y. Zhang, S. Zhou, and Z. Wang, Phys. Rev. Lett. 114, 216402 (2015) (also available at arXiv:1411.6019 )
    Chiral Spin Density Wave Order on the Frustrated Honeycomb and Bilayer Triangle Lattice Hubbard Model at Half-Filling.
  5. Z. Liu, Y. Zhao, Y. Li, L. Jia, Y. Cai, S. Zhou, and T. Xia, B. Buchner, S. Borisenko, and S. Wang, J. Phys.: Condens. Matter 27, 295501 (2015)
    Orbital characters and electronic correlations in KCo2Se2.
  6. S. Yu, X. D. Li, S. Q. Wu, Y. H. Wen, S. Zhou, and Z. Z. Zhu, Materials Research Bulletin 50, 268 (2014)
    Novel electronic structures of superlattice composed of grapheme and silicone.
  7. K. Jiang, S. Zhou, and Z. Wang, Phys. Rev. B 90, 165135 (2014) (also available at arXiv:1309.0518 )
    Textured electronic states of the triangular lattice Hubbard model and NaxCoO2 near x=1/3.
  8. S. Zhou, Y.-P. Wang, and Z. Wang, Phys. Rev. B 89, 195119 (2014) (also available at arXiv:1302.5427 )
    Doublon-holon binding, Mott transition, and fractionalized antiferromagnet in the Hubbard model.
  9. X. Li, S. Wu, S. Zhou, and Z. Z. Zhu, Nanoscale Research Letters 9, 110 (2014)
    Structural and electronic properties of germanene/MoS2 monolayer and silicene/MoS2 monolayer superlattices.
  10. X. D. Li, S. Yu, S. Q. Wu, Y. H. Wen, S. Zhou, and Z. Z. Zhu, J. Phys. Chem. C 117, 14347 (2013)
    Structural and electronic properties of superlattice composed of graphene and monolayer MoS<\sub>2.
  11. S. Zhou, G. Kotliar, and Z. Wang, Phys. Rev. B 84, 140505(R) (2011) (also available at arXiv:1106.4552)
    Extended Hubbard model of superconductivity driven by charge fluctuations in iron pnictides.
  12. S. Zhou and Z. Wang, Phys. Rev. Lett. 105, 096401 (2010) (also available at arXiv:0910.2707)
    Electron correlation and spin density wave order in iron pnictides.
  13. S. Zhou, J. A. Hoyos, V. Dobrosavljevic, and E. Miranda, Europhys. Lett. 87, 27003 (2009) (also available at arXiv:0810.3043)
    Valence-bond theory of highly disordered quantum antiferromagnets.
  14. S. Zhou and Z. Wang, Phys. Rev. Lett. 100, 217002 (2008) (also available at arXiv:0712.1042)
    Nodal d+id Pairing and Topological Phases on the Triangular Lattice of NaxCoO2.yH2O: Evidence for an Unconventional Superconducting State.
  15. F. C. Niestemski, S. Kunwar, S. Zhou, S. Li, H. Ding, Z. Wang, P. Dai, and V. Madhavan, Nature 450, 1058 (2007) (also available at arXiv:0806.2290)
    A distinct bosonic mode in an electron-doped high-transition-temperature superconductor.
  16. M. Gao, S. Zhou and Z. Wang, Phys. Rev. B 76, 180402(R) (2007) (also available at arXiv:0705.0529)
    Itinerant and localized magnetism on the triangular lattice: Sodium-rich phases of NaxCoO2.
  17. S. Zhou and Z. Wang, Phys. Rev. Lett. 98, 226402 (2007) (also available at arXiv:cond-mat/0608068)
    Charge and spin order on the triangular lattice: NaxCoO2 at x=0.5.
  18. S. Zhou, H. Ding, and Z. Wang, Phys. Rev. Lett. 98, 076401 (2007) (also available at arXiv:cond-mat/0604426)
    Correlating off-stoichiometric doping and nanoscale electronic inhomogeneity in the high-Tc superconductor Bi2Sr2CaCu2O8+x.
    Selected for Virtual Journal of Applications of Superconductivity (Volume 12, Issue 4) and Virtual Journal of Nanoscale Science & Technology (Volume 15, Issue 8)
  19. C. Li, S. Zhou, and Z. Wang, Phys. Rev. B 73, 060501(R) (2006) (also available at arXiv:cond-mat/0510596)
    Inhomogeneous states with checkerboard order in the t-J Model.
  20. S. Zhou, M. Gao, H. Ding, P. A. Lee, and Z. Wang, Phys. Rev. Lett. 94, 206401 (2005) (also available at arXiv:cond-mat/0503346)
    Electron correlation and Fermi surface topology of NaxCoO2.
  21. S. Zhou, and Z. Wang, Phys. Rev. B 70, 020501(R) (2004) (also available at arXiv:cond-mat/0401436)
    Pseudogap, competing order and coexistence of staggered flux and d-wave pairing in high temperature superconductors.

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