Polarization-driven topological insulator transition in a GaN/InN/GaN quantum well

Polarization-driven topological insulator transition in a GaN/InN/GaN quantum well

Topological insulator (TI) states have been demonstrated in materials with a narrow gap and large spin-orbit interactions (SOI). Here we demonstrate that nanoscale engineering can also give rise to a TI state, even in conventional semiconductors with a sizable gap and small SOI. Based on advanced fi...

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Veröffentlicht in:Physical review letters 2012-11, Vol.109 (18), p.186803-186803, Article 186803
Hauptverfasser: Miao, M S, Yan, Q, Van de Walle, C G, Lou, W K, Li, L L, Chang, K
Format: Artikel
Sprache:eng
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Zusammenfassung:Topological insulator (TI) states have been demonstrated in materials with a narrow gap and large spin-orbit interactions (SOI). Here we demonstrate that nanoscale engineering can also give rise to a TI state, even in conventional semiconductors with a sizable gap and small SOI. Based on advanced first-principles calculations combined with an effective low-energy k · p Hamiltonian, we show that the intrinsic polarization of materials can be utilized to simultaneously reduce the energy gap and enhance the SOI, driving the system to a TI state. The proposed system consists of ultrathin InN layers embedded into GaN, a layer structure that is experimentally achievable.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.109.186803