Realization of a Double-Slit SQUID Geometry by Fermi Arc Surface States in a WTe 2  Weyl Semimetal

O. O. Shvetsov; A. Kononov; A. V. Timonina; N. N. Kolesnikov; E. V. Deviatov

doi:10.1134/S0021364018120020

Realization of a Double-Slit SQUID Geometry by Fermi Arc Surface States in a WTe₂ Weyl Semimetal

作者: Shvetsov O.O.¹, Kononov A.¹, Timonina A.V.¹, Kolesnikov N.N.¹, Deviatov E.V.¹
隶属关系:
1. Institute of Solid State Physics
期: 卷 107, 编号 12 (2018)
页面: 774-779
栏目: Condensed Matter
URL: https://ogarev-online.ru/0021-3640/article/view/161031
DOI: https://doi.org/10.1134/S0021364018120020
ID: 161031

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We experimentally study electron transport between two superconducting indium leads, coupled to the WTe₂ crystal surface. WTe₂ is characterized by presence of Fermi arc surface states, as a predicted type-II Weyl semimetal candidate. We demonstrate Josephson current in unprecedentedly long 5 µm In–WTe₂–In junctions, which is confirmed by I–V curves evolution with temperature and magnetic field. The Josephson current is mostly carried by the topological surface states, which we demonstrate in a double-slit superconducting quantum interference device geometry, realized by coupling the opposite WTe₂ crystal surfaces.

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Realization of a Double-Slit SQUID Geometry by Fermi Arc Surface States in a WTe₂ Weyl Semimetal

全文:

详细

作者简介

O. Shvetsov

A. Kononov

A. Timonina

N. Kolesnikov

E. Deviatov

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Realization of a Double-Slit SQUID Geometry by Fermi Arc Surface States in a WTe2 Weyl Semimetal

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详细

作者简介

O. Shvetsov

A. Kononov

A. Timonina

N. Kolesnikov

E. Deviatov

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Realization of a Double-Slit SQUID Geometry by Fermi Arc Surface States in a WTe₂ Weyl Semimetal