观察量子霍尔铁磁体中的破缺对称性和拓扑缺陷。

Visualizing broken symmetry and topological defects in a quantum Hall ferromagnet.

作者信息

Liu Xiaomeng, Farahi Gelareh, Chiu Cheng-Li, Papic Zlatko, Watanabe Kenji, Taniguchi Takashi, Zaletel Michael P, Yazdani Ali

机构信息

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

School of Physics and Astronomy, University of Leeds, Leeds LS2 9JT, UK.

出版信息

Science. 2022 Jan 21;375(6578):321-326. doi: 10.1126/science.abm3770. Epub 2021 Dec 2.

DOI:10.1126/science.abm3770

PMID:34855512

Abstract

The interaction between electrons in graphene under high magnetic fields drives the formation of a rich set of quantum Hall ferromagnetic (QHFM) phases with broken spin or valley symmetry. Visualizing atomic-scale electronic wave functions with scanning tunneling spectroscopy (STS), we resolved microscopic signatures of valley ordering in QHFM phases and spectral features of fractional quantum Hall phases of graphene. At charge neutrality, we observed a field-tuned continuous quantum phase transition from a valley-polarized state to an intervalley coherent state, with a Kekulé distortion of its electronic density. Mapping the valley texture extracted from STS measurements of the Kekulé phase, we could visualize valley skyrmion excitations localized near charged defects. Our techniques can be applied to examine valley-ordered phases and their topological excitations in a wide range of materials.

摘要

在强磁场下，石墨烯中电子之间的相互作用驱动了一系列丰富的具有自旋或能谷对称性破缺的量子霍尔铁磁（QHFM）相的形成。通过扫描隧道谱（STS）对原子尺度的电子波函数进行可视化，我们解析了QHFM相中能谷序的微观特征以及石墨烯分数量子霍尔相的光谱特征。在电荷中性时，我们观察到从能谷极化态到能谷间相干态的场调谐连续量子相变，其电子密度具有凯库勒畸变。通过绘制从凯库勒相的STS测量中提取的能谷纹理，我们可以可视化位于带电缺陷附近的能谷斯格明子激发。我们的技术可应用于研究各种材料中的能谷有序相及其拓扑激发。

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观察量子霍尔铁磁体中的破缺对称性和拓扑缺陷。

Visualizing broken symmetry and topological defects in a quantum Hall ferromagnet.

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