English

Canted Spin Texture and Quantum Spin Hall Effect in WTe2

Mesoscale and Nanoscale Physics 2021-01-04 v1 Materials Science

Abstract

We report an unconventional quantum spin Hall phase in the monolayer Td_\text{d}-WTe2_2, which exhibits hitherto unknown features in other topological materials. The low-symmetry of the structure induces a canted spin texture in the yzyz plane, which dictates the spin polarization of topologically protected boundary states. Additionally, the spin Hall conductivity gets quantized (2e2/h2e^2/h) with a spin quantization axis parallel to the canting direction. These findings are based on large-scale quantum simulations of the spin Hall conductivity tensor and nonlocal resistances in multi-probe geometries using a realistic tight-binding model elaborated from first-principle methods. The observation of this canted quantum spin Hall effect, related to the formation of topological edge states with nontrivial spin polarization, demands for specific experimental design and suggests interesting alternatives for manipulating spin information in topological materials.

Keywords

Cite

@article{arxiv.2007.05626,
  title  = {Canted Spin Texture and Quantum Spin Hall Effect in WTe2},
  author = {Jose H. Garcia and Marc Vila and Chuang-Han Hsu and Xavier Waintal and Vitor M. Pereira and Stephan Roche},
  journal= {arXiv preprint arXiv:2007.05626},
  year   = {2021}
}

Comments

For comments please contact josehugo.garcia@icn2.cat

R2 v1 2026-06-23T17:02:03.424Z