Perfect Absorption and Reflection Modulation Based on Asymmetric Slot-Assisted Gratings without Mirrors

IF 4.4 3区材料科学 Q2 CHEMISTRY, MULTIDISCIPLINARY Nanomaterials Pub Date : 2023-11-09 DOI:10.3390/nano13222922

Sangjun Lee, Sangin Kim

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Abstract

As a perfect graphene absorber without any external mirrors, we proposed asymmetric slot-assisted grating structures supporting two degenerate resonant modes of the guided-mode resonances (GMR) and the quasi-bound states in the continuum (quasi-BIC). The GMR mode functions as an internal mirror in conjunction with the background scattering, while the quasi-BIC, which is responsible for perfect graphene absorption, stems from the horizontal symmetry breaking by an asymmetric slot. By properly shifting the slot center from the grating center, the leakage rate of quasi-BIC can be controlled in such a way as to satisfy the critical coupling condition. We provide a comprehensive study on the coupling mechanism of two degenerate resonant modes for a one-port system mimicking the resonance. We also numerically demonstrated that our proposed grating structures show an excellent reflection-type modulation performance at optical wavelength ranges when doped double-layer graphene is applied. Due to the perfect absorption at the OFF state, a high modulation depth of ~50 dB can be achieved via a small Fermi level variation of ~0.05 eV. To obtain the lower insertion loss at the ON state, the higher Fermi level is required to decrease the graphene absorption coefficient.

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基于无反射镜非对称槽辅助光栅的完美吸收和反射调制

作为一种完美的石墨烯吸收体，我们提出了非对称槽辅助光栅结构，支持两种简并共振模式:导模共振(GMR)和连续介质中的准束缚态(准bic)。GMR模式与背景散射一起起着内部反射镜的作用，而负责完美石墨烯吸收的准bic模式源于不对称槽的水平对称性破坏。通过适当地将槽中心从光栅中心移开，可以控制准bic的泄漏率，使其满足临界耦合条件。我们对模拟共振的单端口系统的两种简并共振模式的耦合机制进行了全面的研究。我们还通过数值计算证明，当掺杂双层石墨烯时，我们提出的光栅结构在光学波长范围内表现出优异的反射型调制性能。由于在关闭状态下的完美吸收，可以通过~0.05 eV的小费米能级变化实现~50 dB的高调制深度。为了获得更低的ON态插入损耗，需要更高的费米能级来降低石墨烯的吸收系数。

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来源期刊

Nanomaterials NANOSCIENCE & NANOTECHNOLOGY-MATERIALS SCIENCE, MULTIDISCIPLINARY

CiteScore

8.50

自引率

9.40%

发文量

3841

审稿时长

14.22 days

期刊介绍： Nanomaterials (ISSN 2076-4991) is an international and interdisciplinary scholarly open access journal. It publishes reviews, regular research papers, communications, and short notes that are relevant to any field of study that involves nanomaterials, with respect to their science and application. Thus, theoretical and experimental articles will be accepted, along with articles that deal with the synthesis and use of nanomaterials. Articles that synthesize information from multiple fields, and which place discoveries within a broader context, will be preferred. There is no restriction on the length of the papers. Our aim is to encourage scientists to publish their experimental and theoretical research in as much detail as possible. Full experimental or methodical details, or both, must be provided for research articles. Computed data or files regarding the full details of the experimental procedure, if unable to be published in a normal way, can be deposited as supplementary material. Nanomaterials is dedicated to a high scientific standard. All manuscripts undergo a rigorous reviewing process and decisions are based on the recommendations of independent reviewers.