基于对称型齿波导及纳米盘的类EIT和慢光效应

发布时间：2018-03-26 01:51

本文选题：纤维与波导光学　切入点：类EIT滤波器　出处：《量子电子学报》2017年01期

【摘要】：设计了一种新型的基于金属表面等离子体激元(SPPs)的亚波长金属-绝缘体-金属(MIM)型类电磁诱导透明(EIT)系统,该系统由一个直波导及其两边对称的齿形腔和纳米盘耦合而成。利用耦合模式理论对结构进行分析,并通过时域有限差分方法(FDTD)进行数值模拟。当齿形腔和纳米盘的共振频率相近,可以获得类EIT效应,改变齿形腔的长度和纳米盘的半径可以调节透明窗的位置。该装置可以用作高性能的类EIT滤波器,透过率高达77.5%,半高宽低至35.5 nm,群指数高达65,为高度集成光网络提供了一种新的方法,可应用于波长选择器、超快开关、光存储等设备。
[Abstract]:A new type of electromagnetic induced transparency (EITT) system based on metal surface plasmon excitation (SPPs) is designed. The system is composed of a straight waveguide, a symmetrical tooth cavity on both sides of the waveguide and a nanodisk. The coupling mode theory is used to analyze the structure. The finite difference time-domain (FDTD) method is used for numerical simulation. When the resonant frequencies of the tooth cavity and the nano-disk are similar, the EIT effect can be obtained. The position of the transparent window can be adjusted by changing the length of the tooth cavity and the radius of the nano-disk. The device can be used as a high-performance EIT filter. The transmittance is as high as 77.5 nm, the half-maximum width is as low as 35.5 nm, and the group index is as high as 65, which provides a new method for highly integrated optical networks, which can be used in wavelength selectors, ultra-fast switches, optical storage and other devices.
【作者单位】：华南师范大学信息光电子科技学院广东省微纳光子功能材料与器件重点实验室;
【基金】：国家自然科学基金,61275059~~
【分类号】：TN814

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