Quantum Hall Effect from the Topological Surface States of Strained Bulk HgTe

C. Br\"une; C.X. Liu; E.G. Novik; E.M. Hankiewicz; H. Buhmann; L.W. Molenkamp; S.C. Zhang; X.L. Qi; Y.L. Chen; Z.X. Shen

arxiv: 1101.2627 · v1 · pith:7UZ67XD3new · submitted 2011-01-13 · ❄️ cond-mat.mes-hall · cond-mat.mtrl-sci

Quantum Hall Effect from the Topological Surface States of Strained Bulk HgTe

C. Br\"une , C.X. Liu , E.G. Novik , E.M. Hankiewicz , H. Buhmann , Y.L. Chen , X.L. Qi , Z.X. Shen

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S.C. Zhang L.W. Molenkamp

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classification ❄️ cond-mat.mes-hall cond-mat.mtrl-sci

keywords hgtetopologicalbulkdimensionaleffecthalllayerstates

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We report transport studies on a three dimensional, 70 nm thick HgTe layer, which is strained by epitaxial growth on a CdTe substrate. The strain induces a band gap in the otherwise semi-metallic HgTe, which thus becomes a three dimensional topological insulator. Contributions from residual bulk carriers to the transport properties of the gapped HgTe layer are negligible at mK temperatures. As a result, the sample exhibits a quantized Hall effect that results from the 2D single cone Dirac-like topological surface states.

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Quantum Hall Effect from the Topological Surface States of Strained Bulk HgTe

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