Strain tuning of topological band order in cubic semiconductors

Wanxiang Feng; Wenguang Zhu; Hanno H. Weitering; G. Malcolm Stocks; Yugui Yao; Di Xiao

doi:10.1103/PhysRevB.85.195114

Strain tuning of topological band order in cubic semiconductors

Wanxiang Feng^*
, Wenguang Zhu
, Hanno H. Weitering
, G. Malcolm Stocks
, Yugui Yao
, Di Xiao

^*此作品的通讯作者

物理学院

Oak Ridge National Laboratory
University of Tennessee, Knoxville
CAS - Institute of Physics

科研成果: 期刊稿件 › 文章 › 同行评审

48 引用（Scopus）

摘要

We theoretically explore the possibility of tuning the topological order of cubic diamond/zinc-blende semiconductors with external strain. Based on the tight-binding model, we analyze the evolution of the cubic semiconductor band structure under hydrostatic or biaxial lattice expansion, by which a generic guiding principle is established that lattice expansion can induce a topological phase transition of small band-gap cubic semiconductors via a band inversion, and further breaking of the cubic symmetry leads to a topological insulating phase. Using density functional theory calculations, we demonstrate that a prototype topological trivial semiconductor, InSb, is converted to a nontrivial topological semiconductor with a 2%-3% biaxial lattice expansion.

源语言	英语
文章编号	195114
期刊	Physical Review B - Condensed Matter and Materials Physics
卷	85
期	19
DOI	https://doi.org/10.1103/PhysRevB.85.195114
出版状态	已出版 - 9 5月 2012

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AU - Feng, Wanxiang

AU - Zhu, Wenguang

AU - Weitering, Hanno H.

AU - Stocks, G. Malcolm

AU - Yao, Yugui

AU - Xiao, Di

PY - 2012/5/9

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N2 - We theoretically explore the possibility of tuning the topological order of cubic diamond/zinc-blende semiconductors with external strain. Based on the tight-binding model, we analyze the evolution of the cubic semiconductor band structure under hydrostatic or biaxial lattice expansion, by which a generic guiding principle is established that lattice expansion can induce a topological phase transition of small band-gap cubic semiconductors via a band inversion, and further breaking of the cubic symmetry leads to a topological insulating phase. Using density functional theory calculations, we demonstrate that a prototype topological trivial semiconductor, InSb, is converted to a nontrivial topological semiconductor with a 2%-3% biaxial lattice expansion.

AB - We theoretically explore the possibility of tuning the topological order of cubic diamond/zinc-blende semiconductors with external strain. Based on the tight-binding model, we analyze the evolution of the cubic semiconductor band structure under hydrostatic or biaxial lattice expansion, by which a generic guiding principle is established that lattice expansion can induce a topological phase transition of small band-gap cubic semiconductors via a band inversion, and further breaking of the cubic symmetry leads to a topological insulating phase. Using density functional theory calculations, we demonstrate that a prototype topological trivial semiconductor, InSb, is converted to a nontrivial topological semiconductor with a 2%-3% biaxial lattice expansion.

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Strain tuning of topological band order in cubic semiconductors

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