Article
Predicted Realization of Cubic Dirac Fermion in Quasi-One-Dimensional Transition-Metal Monochalcogenides Público Deposited
https://scholar.colorado.edu/concern/articles/9g54xj35d
- Abstract
- We show that the previously predicted “cubic Dirac fermion,” composed of six conventional Weyl fermions including three with left-handed and three with right-handed chirality, is realized in a specific, stable solid state system that has been made years ago, but was not appreciated as a “cubically dispersed Dirac semimetal” (CDSM). We identify the crystal symmetry constraints and find the space group P6_{3}/m as one of the two that can support a CDSM, of which the characteristic band crossing has linear dispersion along the principle axis but cubic dispersion in the plane perpendicular to it. We then conduct a material search using density functional theory, identifying a group of quasi-one-dimensional molybdenum monochalcogenide compounds A^{I}(MoX^{VI})_{3} (A^{I}=Na, K, Rb, In, Tl; X^{VI}=S, Se, Te) as ideal CDSM candidates. Studying the stability of the A(MoX)_{3} family reveals a few candidates such as Rb(MoTe)_{3} and Tl(MoTe)_{3} that are predicted to be resilient to Peierls distortion, thus retaining the metallic character. Furthermore, the combination of one dimensionality and metallic nature in this family provides a platform for unusual optical signature—polarization-dependent metallic vs insulating response.
- Creator
- Date Issued
- 2017-05-09
- Academic Affiliation
- Journal Title
- Journal Issue/Number
- 2.0
- Journal Volume
- 7.0
- Subject
- Última modificação
- 2019-12-06
- Resource Type
- Declaração de direitos
- DOI
- ISSN
- 2160-3308
- Language
- License
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Miniatura | Título | Data de carga | Acesso | Ações |
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predictedRealizationOfCubicDiracFermionInQuasiOneDimensi.pdf | 2019-12-06 | Público | Baixar |