Research

I study emergent phenomena in strongly correlated quantum matters, by using both analytical and numerical tools. My previous and current research work include:


Favorite publications:

  • Origin of Model Fractional Chern Insulators in All Topological Ideal Flatbands: Explicit Color-entangled Wavefunction and Exact Density Algebra (2022)

Jie Wang, Semyon Klevtsov, Zhao Liu;arXiv 2210.13487


  • Staggered Pseudo Magnetic Field in Twisted Transition Metal Dichalcogenides: Physical Origin and Experimental Consequences (2021)

Jie Wang, Jiawei Zang, Jennifer Cano, Andrew J. Millis; arXiv 2110.14570

  • Chiral Kondo Lattice in Doped MoTe2/WSe2 Bilayers (2022)

Daniele Guerci, Jie Wang, Jiawei Zang, Jennier Cano, J. H. Pixley, A. J. Millis; arXiv 2207.06476

  • Hierarchy of Ideal Flatbands in Chiral Twisted Multilayer Graphene Models (2021)

Jie Wang, Zhao Liu; Phys.Rev.Lett 128, 176403


  • Exact Landau Level Description of Geometry and Interaction in a Flatband (2021)

Jie Wang, Jennifer Cano, A. J. Millis, Zhao Liu, Bo Yang; Phys.Rev.Lett 127.246403


  • Dirac Fermion Hierarchy of Composite Fermi Liquids (2018)

Jie Wang; Phys.Rev.Lett 122, 257203


  • Lattice Monte Carlo for Quantum Hall States on a Torus (2017)

Jie Wang, Scott Geraedts, E. H. Rezayi, F. D. M. Haldane; Phys.Rev.B 99, 125123


  • Berry Phase and Model Wavefunction in the Half-filled Landau Level (2017)

Scott Geraedts, Jie Wang, E. H. Rezayi, F. D. M. Haldane; Phys.Rev.Lett 121, 147202