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Paper detail

Atomic Scale Visualization of Quantum Interference on a Weyl Semimetal Surface by Scanning Tunneling Microscopy/Spectroscopy

Weyl semimetals may open a new era in condensed matter physics, materials science and nanotech after graphene and topological insulators. We report the first atomic scale view of the surface states of a Weyl semimetal (NbP) using scanning tunneling microscopy/spectroscopy. We observe coherent quantum interference patterns that arise from the scattering of quasiparticles near point defects on the surface. The measurements reveal the surface electronic structure both below and above the chemical potential in both real and reciprocal spaces. Moreover, the interference maps uncover the scattering processes of NbP's exotic surface states. Through comparison between experimental data and theoretical calculations, we further discover that the scattering channels are largely restricted by the orbital and/or spin texture of the surface band. The visualization of the scattering processes can help design novel transport effects and electronics on the topological surface of a Weyl semimetal.

preprint2015arXivOpen access
Hao ZhengSu-Yang XuGuang BianCheng GuoGuoqing ChangDaniel S. SanchezIlya BelopolskiChi-Cheng LeeShin-Ming HuangXiao ZhangRaman SankarNasser AlidoustTay-Rong ChangFan WuTitus NeupertFangcheng ChouHorng-Tay JengNan YaoArun BansilShuang JiaHsin LinM. Zahid Hasan
cond-mat.mes-hallcond-mat.mtrl-sci
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Hao ZhengSu-Yang XuGuang BianCheng GuoGuoqing ChangDaniel S. SanchezIlya BelopolskiChi-Cheng LeeShin-Ming HuangXiao ZhangRaman SankarNasser AlidoustTay-Rong ChangFan WuTitus NeupertFangcheng ChouHorng-Tay JengNan YaoArun BansilShuang JiaHsin LinM. Zahid Hasan

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