Publication: Theory of glide symmetry protected helical edge states in a WTe2 monolayer
Theory of glide symmetry protected helical edge states in a WTe2 monolayer
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Bieniek, M., Väyrynen, J. I., Li, G., Neupert, T., & Thomale, R. (2023). Theory of glide symmetry protected helical edge states in a WTe2 monolayer. Physical Review B, 107, 195105. https://doi.org/10.1103/PhysRevB.107.195105
Abstract
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Helical edge states in quantum spin Hall (QSH) materials are central building blocks of topological matter design and engineering. Despite their principal topological protection against elastic backscattering, the level of operational stability depends on manifold parameters such as the band gap of the given semiconductor system in the “inverted” regime, temperature, disorder, and crystal orientation. We theoretically investigate electronic and transport properties of QSH edge states in large gap 1-T′ WTe$^{2}$ monolayers. We explore
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- Bieniek, Maciej
- Väyrynen, Jukka I
- Li, Gang
- Thomale, Ronny
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Bieniek, M., Väyrynen, J. I., Li, G., Neupert, T., & Thomale, R. (2023). Theory of glide symmetry protected helical edge states in a WTe2 monolayer. Physical Review B, 107, 195105. https://doi.org/10.1103/PhysRevB.107.195105
