二维过渡金属二硫族化物调制光子狄拉克半金属的可调谐和非常规费米弧

IF 6.6 2区物理与天体物理 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY

Nanophotonics Pub Date : 2025-06-11 DOI:10.1515/nanoph-2025-0083

Yang Yang, Hongye Qiu, Ke Bi, Biao Yang

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引用次数: 0

摘要

费米弧是存在于拓扑半金属中的非平凡表面态，它表现出各种有趣的效应，如异常输运性质和手性异常诱导现象。近年来出现的二维过渡金属二硫族化物（TMDC）表现出独特的光学和电学特性，使其成为有效调制费米电弧的一个有前途的平台。通过在光子狄拉克超材料（PDS）上覆盖TMDC片，四极狄拉克点分裂成两个三重简并点（TDP），每个TDP共享一个费米弧。通过调整TMDC层的特性，可以在多自由度上有效地调制费米弧线和PDS的传输。不同寻常的是，我们发现费米弧可能并不终止于简并点，而是终止于两个III型tdp之间。研究了具有非定域效应的费米弧。此外，还观察到TDP从开放（双曲型）到封闭（椭圆型）等频轮廓的拓扑转变。我们的研究结果可能为具有多种功能的费米弧线的柔性调制提供潜在的应用。

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Tunable and unconventional Fermi arcs of two-dimensional transition-metal dichalcogenide modulated photonic Dirac semimetal

Fermi arcs are nontrivial surface states that exist in topological semimetals, which exhibit a variety of interesting effects, such as anomalous transport properties and chiral anomaly induced phenomena. Recently, the emerged Two-dimensional transition-metal dichalcogenide (TMDC) shows distinctive optical and electrical properties, makes it a promising platform for efficient modulation of Fermi arcs. By covering TMDC sheets on a photonic Dirac metamaterial (PDS), the quadrupole Dirac point splits into two triple degeneracy points (TDPs), each TDP share one Fermi arc. Through tuning the characteristics of TMDC layers, Fermi arcs and transmissions of PDS can be effectively modulated in multi-degrees of freedom. Unconventionally, we find the Fermi arcs may do not terminate at the degeneracy points but between the two type III TDPs. Fermi arcs with nonlocal effect are also investigated. Furthermore, topological transition from open (hyperbolic-like) to closed (elliptical-like) equi-frequency contours at TDP is also observed. Our findings may provide potential applications in flexible modulation of Fermi arcs with multiple functions.

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来源期刊

Nanophotonics NANOSCIENCE & NANOTECHNOLOGY-MATERIALS SCIENCE, MULTIDISCIPLINARY

CiteScore

13.50

自引率

6.70%

发文量

358

审稿时长

7 weeks

期刊介绍： Nanophotonics, published in collaboration with Sciencewise, is a prestigious journal that showcases recent international research results, notable advancements in the field, and innovative applications. It is regarded as one of the leading publications in the realm of nanophotonics and encompasses a range of article types including research articles, selectively invited reviews, letters, and perspectives. The journal specifically delves into the study of photon interaction with nano-structures, such as carbon nano-tubes, nano metal particles, nano crystals, semiconductor nano dots, photonic crystals, tissue, and DNA. It offers comprehensive coverage of the most up-to-date discoveries, making it an essential resource for physicists, engineers, and material scientists.