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Ballistic edge states in Bismuth nanowires revealed by SQUID interferometry

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arxiv 1609.04848 v1 pith:B3VVPNZ5 submitted 2016-09-15 cond-mat.mes-hall

Ballistic edge states in Bismuth nanowires revealed by SQUID interferometry

classification cond-mat.mes-hall
keywords transportalongballisticbismuthedgeedgesphasestates
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Spin-orbit interactions are known to have drastic effects on the band structure of heavy-element-based materials. Celebrated examples are the recently identified 3D and 2D topological insulators. In those systems transport takes place at surfaces or along edges, and spin-momentum locking provides protection against (non-magnetic) impurity scattering, favoring spin-polarized ballistic transport. We have used the measurement of the current phase relation of a micrometer-long single crystal bismuth nanowire connected to superconducting electrodes, to demonstrate that transport occurs ballistically along two edges of this high-spin-orbit material. In addition, we show that a magnetic field can induce to 0-pi transitions and phi0-junction behavior, thanks to the extraordinarily high g-factor and spin orbit coupling in this system, providing a way to manipulate the phase of the supercurrent-carrying edge states.

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  1. Probing the topological protection of edge states in multilayer tungsten ditelluride with the superconducting proximity effect

    cond-mat.mes-hall 2025-04 unverdicted novelty 5.0

    SQUID measurements on multilayer WTe2 show asymmetric interference patterns and a sawtooth current-phase relation at the edge, indicating ballistic supercurrent over 600 nm as evidence for second-order topological ins...