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Quantum confinement of the Dirac surface states in topological-insulator nanowires.


ABSTRACT: The non-trivial topology of three-dimensional topological insulators dictates the appearance of gapless Dirac surface states. Intriguingly, when made into a nanowire, quantum confinement leads to a peculiar gapped Dirac sub-band structure. This gap is useful for, e.g., future Majorana qubits based on TIs. Furthermore, these sub-bands can be manipulated by a magnetic flux and are an ideal platform for generating stable Majorana zero modes, playing a key role in topological quantum computing. However, direct evidence for the Dirac sub-bands in TI nanowires has not been reported so far. Here, using devices fabricated from thin bulk-insulating (Bi1-xSbx)2Te3 nanowires we show that non-equidistant resistance peaks, observed upon gate-tuning the chemical potential across the Dirac point, are the unique signatures of the quantized sub-bands. These TI nanowires open the way to address the topological mesoscopic physics, and eventually the Majorana physics when proximitized by an s-wave superconductor.

SUBMITTER: Munning F 

PROVIDER: S-EPMC7884718 | biostudies-literature | 2021 Feb

REPOSITORIES: biostudies-literature

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Quantum confinement of the Dirac surface states in topological-insulator nanowires.

Münning Felix F   Breunig Oliver O   Legg Henry F HF   Roitsch Stefan S   Fan Dingxun D   Rößler Matthias M   Rosch Achim A   Ando Yoichi Y  

Nature communications 20210215 1


The non-trivial topology of three-dimensional topological insulators dictates the appearance of gapless Dirac surface states. Intriguingly, when made into a nanowire, quantum confinement leads to a peculiar gapped Dirac sub-band structure. This gap is useful for, e.g., future Majorana qubits based on TIs. Furthermore, these sub-bands can be manipulated by a magnetic flux and are an ideal platform for generating stable Majorana zero modes, playing a key role in topological quantum computing. Howe  ...[more]

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