English

Moir\'e flat bands in alternating twisted $\mathrm{MoTe_2}$ multilayer

Mesoscale and Nanoscale Physics 2024-05-28 v1

Abstract

The long-awaited fractional quantum anomalous Hall (FQAH) effect recently has been observed in the twisted MoTe2\mathrm{MoTe_2} homobilayers, causing a great sensation. Here, we theoretically investigate the moir\'e band structures of a closely related system, the alternating twisted multilayer MoTe2\mathrm{MoTe_2} (ATML-MoTe2\mathrm{MoTe_2}), where the adjacent layers have opposite twist angles. We illustrate that such ATML-MoTe2\mathrm{MoTe_2} is a very unique moir\'e system, exhibiting multiple topological flat bands highly controllable by the layer number and twist angle, which is not only an ideal platform to simulate Hubbard model, but also may host FQAH states. Specifically, an N-layer ATML-MoTe2\mathrm{MoTe_2} (N3N \geq 3) always possesses N2N-2 topological flat bands near Fermi energy EfE_f, which has an odd-even dependent decomposition rule to understand the behaviors of the moir\'e flat bands. We predict three intriguing examples: (1) The AT3L-MoTe2\mathrm{MoTe_2} (N=3N=3) has one isolated moir\'e flat band, which corresponds to a triangular lattice Hubbard model, resembling the twisted TMD heterobilayers. (2) The AT4L-MoTe2\mathrm{MoTe_2} (N=4N=4) has two topological flat bands that are very similar to the twisted MoTe2\mathrm{MoTe_2} homobilayers, implying the possible existence of FQAH states. (3) When N>4N>4, the giant density of states (DOS) induced by the multiple moir\'e flat bands may induce exotic correlated states.

Keywords

Cite

@article{arxiv.2405.17134,
  title  = {Moir\'e flat bands in alternating twisted $\mathrm{MoTe_2}$ multilayer},
  author = {Miao Liang and Shi-Ping Ding and Ming Wu and Chen Zhao and Jin-Hua Gao},
  journal= {arXiv preprint arXiv:2405.17134},
  year   = {2024}
}

Comments

11 pages, 5 figures

R2 v1 2026-06-28T16:41:58.871Z