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Paper detail

Engineering Dirac electrons emergent on the surface of a topological insulator

The concept of topological insulator (TI) has introduced a new point of view to condensed-matter physics, relating a priori unrelated subfields such as quantum (spin, anomalous) Hall effects, spin-orbit coupled materials, some classes of nodal superconductors and superfluid $^3$He, etc. From a technological point of view, topological insulator is expected to serve as a platform for realizing dissipationless transport in a non-superconducting context. The topological insulator exhibits a gapless surface state with a characteristic conic dispersion (a surface Dirac cone). Here, we review peculiar finite-size effects applicable to such surface states in TI nanostructures. We highlight the specific electronic properties of TI nanowires and nanoparticles, and in this context contrast the cases of weak and strong TIs. We study robustness of the surface and the bulk of TIs against disorder, addressing the physics of Dirac and Weyl semimetals as a new perspective of research in the field.

preprint2014arXivOpen access
Yukinori YoshimuraKoji KobayashiTomi OhtsukiKen-Ichiro Imura
cond-mat.mes-hall
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Yukinori YoshimuraKoji KobayashiTomi OhtsukiKen-Ichiro Imura

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