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Dr. Ryuichi Shindou

Associate Professor

Contact

e-mail : rshindou@pku.edu.cn

 

Education

1995-1999: B.E. in Department of Applied Physics, University of Tokyo,

1999-2004: PhD in Department of Applied Physics, University of Tokyo,

 

Employment

2004-2005: JSPS Postdoctoral Fellow, University of Tokyo, Japan

2005-2007: Postdoctoral Researcher, University of California at Santa Barbara, USA

2007-2008: Postdoctoral Researcher, Osaka University, Japan

2008-2010: RIKEN Special Postdoctoral Fellow, RIKEN, Japan

2010-2012: Postdoctoral Researcher, Tokyo Institute of Technology, Japan

2012-2013: Assistant Professor, Tokyo Institute of Technology 

2013-2019: Associate Professor (tenure-track), ICQM, Peking University, Beijing

2019-   : Associate Professor (with tenure), ICQM, Peking University, Beijing 

 

Research Interests

Quantum Condensed Matter Theory; research interests during past 5 years include

  • Theories of quantum phase transitions, quantum transport, and localization
  • Theories of quantum spin transport, magnetism, electron correlation and multiple-energy-band effect

 

Selected Publications

  • `Anisotropic topological Anderson transitions in chiral symmetry classes', Z. Xiao, K. Kawabata, X. Luo, T. Ohtsuki, and R. Shindou, arXiv:2211.009999, to appear in Phys. Rev. Lett. 
  • `Antiparticle of exciton in semimetals', L. Kong, R. Shindou, and Y. Zhang, Phys. Rev. B 106, 235145 (2022).
  • `Level Statistics of real eigenvalues in non-Hermitian systems', Z. Xiao, K. Kawabata, X. Luo, T. Ohtsuki, and R. Shindou, Phys. Rev. Research, 4, 043196 (2022).
  • `Unifying the Anderson transitions in Hermitian and non-Hermitian systems'  X. Luo, Z. Xiao, K. Kawabata, T. Ohtsuki, and R. Shindou, Phys. Rev. Resarch, 4, L022035 (2022). 
  • `Dissipationless spin-charge conversion in excitonic pseudo-spin superfluid', Y. Zhang, and R. Shindou, Phys. Rev. Lett, 128, 066601 (2022).
  • `Renormalization group analysis of Dirac fermions with a random mass', Z. Pan, T. Wang, T. Ohtsuki, and R. Shindou, Phys. Rev. B, 104, 174205 (2021).
  • `Multicriticality of two-dimensional class-D disordered topological superconductors', T. Wang, Z. Pan, T. Ohtsuki, I. A. Gruzberg, and R. Shindou, Phys. Rev. B,104, 184201 (2021).
  • `Transfer matrix study of the Anderson transition in non-Hermitian systems', X. Luo, T. Ohtsuki, and R. Shindou, Phys. Rev. B, 104, 104203 (2021).
  • `Universality classes of the Anderson transitions in three-dimensional symmetry classes AIII, BDI, C, D, and CI', T. Wang, T. Ohtsuki and R. Shindou, Phys. Rev. B, 104, 014206 (2021).
  • `Universality classes of the Anderson transitions driven by non-Hermitian disorders', X. Luo, T. Ohtsuki, and R. Shindou, Phys. Rev. Lett., 126, 090402 (2021).  
  • `Fate of a multiple-band Fermi liquid that is coupled with critical \varphi^4 boson', Z. Pan, and R. Shindou, Phys. Rev. B, 102, 235158 (2020).
  • `Critical behavior of Anderson transitions in the three-dimensional orthogonal classes with particle-hole symmetries', X. Luo, B. Xu, T. Ohtsuki, and R. Shindou, Phys. Rev. B, 101, 020202(R) (2020). 
  • `Ground-state atlas of a three-dimensional semimetal in the quantum limit' , Z. Pan, and R. Shindou, Phys. Rev. B, 100, 165124 (2019).
  • `Helicoidal excitonic phase in electron-hole double layer system', K. Chen, and R. Shindou, Phys. Rev.  B, 100, 035130 (2019).

 

Recruitment:

I plan to have one PhD student every year. Please feel free to contact me, if you are interested in theoretical condensed matter physics research.