English

Quantum Hall spin liquids and their possible realization in moir\'e systems

Strongly Correlated Electrons 2020-10-07 v2

Abstract

Recently Chern insulators with Chern number C=1C=1 and C=2C=2 in zero (or very small) magnetic field have been observed in two moire graphene systems: twisted bilayer graphene and ABC trilayer graphene, both aligned with a hexagonal Boron-Nitride (h-BN) substrate. These Chern insulator states arise due to many body effects in the Chern bands of these systems when they are partially filled to a total integer filling νT=1,3\nu_T = 1,3 (including spin and valley degrees of freedom). A simple possible explanation is from Hartree-Fock mean field theory which predicts valley and spin polarization in the zero bandwidth limit, similar to the "quantum Hall ferromagnetism" in Landau levels. Though valley polarization is implied by the existing experiments, the fate of the spin degree of freedom is not presently clear. In this paper we propose alternative valley polarized - but not spin polarized - candidates for the observed QAH effect. For a valley polarized spinful Chern band at filling νT=1\nu_T=1, we describe a class of exotic Chern insulator phases through spin-charge separation: charge is in a conventional Chern insulator phase with quantized Hall conductivity, while the spin forms disordered spin liquid phase with fractionalization, which we dub quantum Hall spin liquids. We construct a simple class of Z2Z_2 quantum Hall spin liquid as analogs of the familiar Z2Z_2 spin liquid through slave fermion-schwinger boson parton theory. Condensation of the spinon from the Z2Z_2 quantum Hall spin liquid can lead to a quantum Hall antiferromagnet which is yet another, less exotic, candidate for the experimentally observed Chern insulator. We offer several experimental proposals to probe the quantum Hall spin liquid and the quantum Hall anti-ferromagnetic phases.

Keywords

Cite

@article{arxiv.2003.13702,
  title  = {Quantum Hall spin liquids and their possible realization in moir\'e systems},
  author = {Ya-Hui Zhang and T. Senthil},
  journal= {arXiv preprint arXiv:2003.13702},
  year   = {2020}
}

Comments

11 pages; 1 figure; v2: add discussions on doped case and experimental detection

R2 v1 2026-06-23T14:32:35.413Z