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由单个库仑杂质驱动的石墨烯中的费米边缘传输共振。

Fermi-edge transmission resonance in graphene driven by a single Coulomb impurity.

作者信息

Karnatak Paritosh, Goswami Srijit, Kochat Vidya, Pal Atindra Nath, Ghosh Arindam

机构信息

Department of Physics, Indian Institute of Science, Bangalore 560 012, India.

出版信息

Phys Rev Lett. 2014 Jul 11;113(2):026601. doi: 10.1103/PhysRevLett.113.026601. Epub 2014 Jul 10.

Abstract

The interaction between the Fermi sea of conduction electrons and a nonadiabatic attractive impurity potential can lead to a power-law divergence in the tunneling probability of charge through the impurity. The resulting effect, known as the Fermi edge singularity (FES), constitutes one of the most fundamental many-body phenomena in quantum solid state physics. Here we report the first observation of FES for Dirac fermions in graphene driven by isolated Coulomb impurities in the conduction channel. In high-mobility graphene devices on hexagonal boron nitride substrates, the FES manifests in abrupt changes in conductance with a large magnitude ≈e(2)/h at resonance, indicating total many-body screening of a local Coulomb impurity with fluctuating charge occupancy. Furthermore, we exploit the extreme sensitivity of graphene to individual Coulomb impurities and demonstrate a new defect-spectroscopy tool to investigate strongly correlated phases in graphene in the quantum Hall regime.

摘要

传导电子的费米海与非绝热吸引杂质势之间的相互作用会导致电荷通过杂质的隧穿概率出现幂律发散。这种效应被称为费米边奇点(FES),是量子固态物理中最基本的多体现象之一。在此,我们报告了首次在传导通道中由孤立库仑杂质驱动的石墨烯中狄拉克费米子的费米边奇点观测结果。在六方氮化硼衬底上的高迁移率石墨烯器件中,费米边奇点表现为共振时电导的急剧变化,其幅度约为(e^2/h),这表明对具有波动电荷占据的局部库仑杂质进行了完全的多体屏蔽。此外,我们利用石墨烯对单个库仑杂质的极端敏感性,展示了一种新的缺陷光谱工具,用于研究量子霍尔 regime 中石墨烯的强关联相。

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