Ab initio study of topological surface states of strained HgTe

Shu Chun Wu; Binghai Yan; Claudia Felser

doi:10.1209/0295-5075/107/57006

Ab initio study of topological surface states of strained HgTe

Shu Chun Wu
, Binghai Yan
, Claudia Felser

Physics

Research output: Contribution to journal › Article › peer-review

25 Scopus citations

Abstract

The topological surface states of mercury telluride (HgTe) are studied by ab initio calculations assuming different strains and surface terminations. For the Te-terminated surface, a single Dirac cone exists at the Γ-point. The Dirac point shifts up from the bulk valence bands into the energy gap when the substrate-induced strain increases. At the experimental strain value (0.3%), the Dirac point lies slightly below the bulk valence band maximum. A left-handed spin texture was observed in the upper Dirac cone, similar to that of the Bi₂Se₃-type topological insulator. For the Hg-terminated surface, three Dirac cones appear at three time-reversal-invariant momenta, excluding the Γ-point, with non-trivial spin textures.

Original language	English (US)
Article number	57006
Journal	Europhysics Letters
Volume	107
Issue number	5
DOIs	https://doi.org/10.1209/0295-5075/107/57006
State	Published - Sep 2014

All Science Journal Classification (ASJC) codes

General Physics and Astronomy

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10.1209/0295-5075/107/57006

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title = "Ab initio study of topological surface states of strained HgTe",

abstract = "The topological surface states of mercury telluride (HgTe) are studied by ab initio calculations assuming different strains and surface terminations. For the Te-terminated surface, a single Dirac cone exists at the Γ-point. The Dirac point shifts up from the bulk valence bands into the energy gap when the substrate-induced strain increases. At the experimental strain value (0.3\%), the Dirac point lies slightly below the bulk valence band maximum. A left-handed spin texture was observed in the upper Dirac cone, similar to that of the Bi2Se3-type topological insulator. For the Hg-terminated surface, three Dirac cones appear at three time-reversal-invariant momenta, excluding the Γ-point, with non-trivial spin textures.",

author = "Wu, \{Shu Chun\} and Binghai Yan and Claudia Felser",

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AU - Wu, Shu Chun

AU - Yan, Binghai

AU - Felser, Claudia

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N2 - The topological surface states of mercury telluride (HgTe) are studied by ab initio calculations assuming different strains and surface terminations. For the Te-terminated surface, a single Dirac cone exists at the Γ-point. The Dirac point shifts up from the bulk valence bands into the energy gap when the substrate-induced strain increases. At the experimental strain value (0.3%), the Dirac point lies slightly below the bulk valence band maximum. A left-handed spin texture was observed in the upper Dirac cone, similar to that of the Bi2Se3-type topological insulator. For the Hg-terminated surface, three Dirac cones appear at three time-reversal-invariant momenta, excluding the Γ-point, with non-trivial spin textures.

AB - The topological surface states of mercury telluride (HgTe) are studied by ab initio calculations assuming different strains and surface terminations. For the Te-terminated surface, a single Dirac cone exists at the Γ-point. The Dirac point shifts up from the bulk valence bands into the energy gap when the substrate-induced strain increases. At the experimental strain value (0.3%), the Dirac point lies slightly below the bulk valence band maximum. A left-handed spin texture was observed in the upper Dirac cone, similar to that of the Bi2Se3-type topological insulator. For the Hg-terminated surface, three Dirac cones appear at three time-reversal-invariant momenta, excluding the Γ-point, with non-trivial spin textures.

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DO - 10.1209/0295-5075/107/57006

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JO - Europhysics Letters

JF - Europhysics Letters

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ER -

Ab initio study of topological surface states of strained HgTe

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