Yifan Jiang

Developing state-of-the-art numerical methods – such as Quantum Monte Carlo, Density Matrix Renormalization Group – to investigate the rich physics in low dimensional strong correlated system, including the emerge phenomena near the quantum critical point, topological state of matter, unconventional superconductivity and frustrated quantum magnets. 

(*equal contribution)

1.  Doping quantum spin liquids on the Kagome   lattice, Cheng Peng*, Yi-Fan Jiang*, Dong-Ning Sheng, and Hong-Chen Jiang,   invited review, Adv. Quantum Technol., accepted.

2.  Topological superconductivity in the   doped chiral spin liquid on the triangular lattice, Yi-Fan Jiang and   Hong-Chen Jiang, Phys. Rev. Lett. 125, 157002 (2020).

3.  Hubbard ladders at small U revisited, Yuval   Gannot, Yi-Fan Jiang, and Steven A. Kivelson, Phys. Rev. B 102, 115136   (2020).

4.  Evidence of pair-density wave in doping   Kitaev spin liquid on the honeycomb lattice, Cheng Peng*, Yi-Fan Jiang*,   Thomas P. Devereaux, and Hong-Chen Jiang, arXiv:2008.03858.

5.  Possible superconductivity with   Bogoliubov Fermi surface in lightly doped Kagome U(1) spin liquid, Yi-Fan   Jiang, Hong Yao and Fan Yang, arXiv:2003.02850.

6.  Ground state phase diagram of the doped   Hubbard model on the 4-leg cylinder, Yi-Fan Jiang, Jan Zaanen, Thomas P.   Devereaux, and Hong-Chen Jiang, Phys. Rev. Research 2, 033073 (2020).

7.  Materializing rival ground states in the   barlowite family of kagome magnets: quantum spin liquid, spin ordered, and   valence bond crystal states, R. W. Smaha, et al., npj Quantum Mater. 5, 23   (2020).

8.  Field-induced quantum spin liquid in the   Kitaev-Heisenberg model and its relation to α-RuCl3, Yi-Fan Jiang, Thomas P.   Devereaux, and Hong-Chen Jiang, Phys. Rev. B 100, 165123 (2019).

9.  Fractional charge and emergent mass   hierarchy in diagonal two-leg t-J cylinders, Yi-Fan Jiang, Hong-Chen Jiang,   Hong Yao, and Steven A. Kivelson, Phys. Rev. B 95, 245105 (2017).

10.Edge quantum criticality and emergent   supersymmetry in topological phases, Zi-Xiang Li, Yi-Fan Jiang, and Hong Yao,   Phys. Rev. Lett. 119, 107202 (2017).

11.Charge-4e superconductors: a Majorana   quantum Monte Carlo study, Yi-Fan Jiang, Zi-Xiang Li, Steven A. Kivelson, and   Hong Yao, Phys. Rev. B 95, 241103(R) (2017).

12.Fermion-induced quantum critical points, Zi-Xiang   Li*, Yi-Fan Jiang*, Shao-Kai Jian*, and Hong Yao, Nat. Commun. 8, 314 (2017).

13.Majorana-time-reversal symmetries: a   fundamental principle for sign-problem-free quantum Monte Carlo simulations, Zi-Xiang   Li, Yi-Fan Jiang, and Hong Yao, Phys. Rev. Lett. 117, 267002 (2016).

14.Fermion-sign-free   Majarana-quantum-Monte-Carlo studies of quantum critical phenomena of Dirac   fermions in two dimensions, Zi-Xiang Li, Yi-Fan Jiang, and Hong Yao, New J.   Phys. 17, 085003 (2015).

15.Solving fermion sign problem in quantum   Monte Carlo by Majorana representation, Zi-Xiang Li, Yi-Fan Jiang, and Hong   Yao, Phys. Rev. B 91, 241117(R) (2015); Editors’ Suggestion.

16.Emergent Spacetime Supersymmetry in 3D   Weyl Semimetals and 2D Dirac Semimetals, Shao-Kai Jian, Yi-Fan Jiang, and   Hong Yao, Phys. Rev. Lett. 114, 237001 (2015); Editors’ Suggestion.