在铋表面观测到向列型量子霍尔液体。

Observation of a nematic quantum Hall liquid on the surface of bismuth.

机构信息

Joseph Henry Laboratories and Department of Physics, Princeton University, Princeton, NJ 08544, USA.

Department of Physics, University of Texas, Austin, TX 78712, USA.

出版信息

Science. 2016 Oct 21;354(6310):316-321. doi: 10.1126/science.aag1715.

DOI:10.1126/science.aag1715

PMID:27846563

Abstract

Nematic quantum fluids with wave functions that break the underlying crystalline symmetry can form in interacting electronic systems. We examined the quantum Hall states that arise in high magnetic fields from anisotropic hole pockets on the Bi(111) surface. Spectroscopy performed with a scanning tunneling microscope showed that a combination of single-particle effects and many-body Coulomb interactions lift the six-fold Landau level (LL) degeneracy to form three valley-polarized quantum Hall states. We imaged the resulting anisotropic LL wave functions and found that they have a different orientation for each broken-symmetry state. The wave functions correspond to those expected from pairs of hole valleys and provide a direct spatial signature of a nematic electronic phase.

摘要

具有破坏基础晶体对称性的波函数的向列型量子流体可以在相互作用的电子系统中形成。我们研究了在 Bi(111)表面各向异性空穴口袋在高磁场中产生的量子霍尔态。用扫描隧道显微镜进行的光谱学研究表明，单个粒子效应和多体库仑相互作用的结合将六重朗道能级（LL）简并提升为三个谷极化量子霍尔态。我们对得到的各向异性 LL 波函数进行了成像，发现它们在每个具有对称破缺的状态下具有不同的取向。波函数对应于那些预期的空穴谷对，并提供了向列型电子相的直接空间特征。

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在铋表面观测到向列型量子霍尔液体。

Observation of a nematic quantum Hall liquid on the surface of bismuth.

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