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Half-Heusler Compounds as a New Class of Three-Dimensional Topological Insulators

Using first-principles calculations within density functional theory, we explore the feasibility of converting ternary half-Heusler compounds into a new class of three-dimensional topological insulators (3DTI). We demonstrate that the electronic structure of unstrained LaPtBi as a prototype system exhibits distinct band-inversion feature. The 3DTI phase is realized by applying a uniaxial strain along the [001] direction, which opens a bandgap while preserving the inverted band order. A definitive proof of the strained LaPtBi as a 3DTI is provided by directly calculating the topological Z2 invariants in systems without inversion symmetry. We discuss the implications of the present study to other half-Heusler compounds as 3DTI, which, together with the magnetic and superconducting properties of these materials, may provide a rich platform for novel quantum phenomena.

preprint2010arXivOpen access
Di XiaoYugui YaoWanxiang FengJun WenWenguang ZhuXingqiu ChenG. Malcolm StocksZhenyu Zhang
cond-mat.mtrl-sciphysics.comp-phquant-ph
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Di XiaoYugui YaoWanxiang FengJun WenWenguang ZhuXingqiu ChenG. Malcolm StocksZhenyu Zhang

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