非赫米提石墨烯模型中的复杂贝里曲率和复杂能带结构

Chao Wu, Annan Fan, Shi-Dong Liang
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引用次数: 0

摘要

非赫米提量子系统展现出许多新颖的量子态物理特性。我们考虑了基于石墨烯与基底耦合的紧结合近似的非赫米提石墨烯模型。我们分析了该模型的复能结构、其例外点以及相关拓扑不变式。我们给出了布里渊区的解析复贝里连接和贝里曲率,并对复贝里曲率和复能带结构之间的关系进行了数值研究。我们发现复贝里曲率的行为取决于复能带结构。复贝里曲率实部和虚部峰值的出现对应于布里渊区的例外(无间隙)点。特别是,贝里曲率虚部的狄拉克锥出现,对应于非赫米提参数(\eta =3\)的平实能带的出现。这些结果为非赫米提石墨烯、几何和拓扑不变式之间的关系提供了一些新的见解。
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Complex Berry curvature and complex energy band structures in non-Hermitian graphene model

Non-Hermitian quantum systems exhibit many novel physical properties of quantum states. We consider a non-Hermtian graphene model based on the tight-binding approximation with the coupling of the graphene and the substrate. We analyze the complex energy structure of this model and its exceptional points as well as relevant topological invariants. We give the analytic complex Berry connection and Berry curvature in the Brillouin zone and investigate numerically the relationships between the complex Berry curvature and the complex energy band structures. We find that the behaviors of the complex Berry curvature depend on the complex energy band structures. The occurrence of the peaks of both real and imaginary parts of the complex Berry curvature corresponds to the exceptional (gapless) points in the Brillouin zone. In particular, the Dirac cone of the imaginary part of the Berry curvature occurs and corresponding to the occurrence of the flat real energy band for the non-Hermitian parameter \(\eta =3\). These results provide some novel insights to the relationship between the non-Hermitian graphene, geometry, and topological invariants.

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