Physical Review X (Sep 2018)

Maximally Localized Wannier Orbitals and the Extended Hubbard Model for Twisted Bilayer Graphene

  • Mikito Koshino,
  • Noah F. Q. Yuan,
  • Takashi Koretsune,
  • Masayuki Ochi,
  • Kazuhiko Kuroki,
  • Liang Fu

DOI
https://doi.org/10.1103/PhysRevX.8.031087
Journal volume & issue
Vol. 8, no. 3
p. 031087

Abstract

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We develop an effective extended Hubbard model to describe the low-energy electronic properties of the twisted bilayer graphene. By using the Bloch states in the effective continuum model and with the aid of the maximally localized algorithm, we construct the Wannier orbitals and obtain an effective tight-binding model on the emergent honeycomb lattice. We find that the Wannier state takes a peculiar three-peak form in which the amplitude maxima are located at the triangle corners surrounding the center. We estimate the direct Coulomb interaction and the exchange interaction between the Wannier states. At the filling of two electrons per supercell, in particular, we find an unexpected coincidence in the direct Coulomb energy between a charge-ordered state and a homogeneous state, which could possibly lead to an unconventional many-body state.