量子点接触中玻色子对称保护拓扑态的指纹

Fingerprints of a Bosonic Symmetry-Protected Topological State in a Quantum Point Contact.

作者信息

Zhang Rui-Xing, Liu Chao-Xing

机构信息

Department of Physics, The Pennsylvania State University, University Park, Pennsylvania 16802, USA.

出版信息

Phys Rev Lett. 2017 May 26;118(21):216803. doi: 10.1103/PhysRevLett.118.216803.

DOI:10.1103/PhysRevLett.118.216803

PMID:28598641

Abstract

In this work, we study the transport through a quantum point contact for bosonic helical liquid that exists at the edge of a bilayer graphene under a strong magnetic field. We identify "smoking gun" transport signatures to distinguish a bosonic symmetry-protected topological (BSPT) state from a fermionic two-channel quantum spin Hall (QSH) state in this system. In particular, a novel charge-insulator-spin-conductor phase is found for the BSPT state, while either the charge-insulator-spin-insulator or the charge-conductor-spin-conductor phase is expected for the two-channel QSH state. Consequently, a simple transport measurement will reveal the fingerprint of bosonic topological physics in bilayer graphene systems.

摘要

在这项工作中，我们研究了在强磁场下双层石墨烯边缘存在的玻色子螺旋液体通过量子点接触的输运。我们识别出“确凿证据”般的输运特征，以区分该系统中玻色子对称性保护拓扑（BSPT）态与费米子双通道量子自旋霍尔（QSH）态。特别地，对于BSPT态发现了一种新颖的电荷绝缘体 - 自旋导体相，而对于双通道QSH态预期的是电荷绝缘体 - 自旋绝缘体相或电荷导体 - 自旋导体相。因此，一个简单的输运测量将揭示双层石墨烯系统中玻色子拓扑物理的特征。

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量子点接触中玻色子对称保护拓扑态的指纹

Fingerprints of a Bosonic Symmetry-Protected Topological State in a Quantum Point Contact.

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