Exploring the Optical Bound State in the Continuum in a Dielectric Grating Coupled Plasmonic Hybrid System

等离子体子 光子学 栅栏 材料科学 激光阈值 光学 非线性光学 混合动力系统 光电子学 物理 激光器 波长 计算机科学 机器学习
作者
Shereena Joseph,Swagato Sarkar,Sunny Khan,Joby Joseph
出处
期刊:Advanced Optical Materials [Wiley]
卷期号:9 (8) 被引量:102
标识
DOI:10.1002/adom.202001895
摘要

Abstract The bound state in the continuum (BIC) explores the extraordinary optical properties of a system possessing wave characteristics that gained recent importance for practical applications, including lasing, sensing, optical tweezing, nonlinear interactions, and many more. Unlike a pure optical or plasmonic system, a hybrid architecture with coupled photonic–plasmonic characteristics can offer the intermittent resonant modes for suitable applications. Therefore, BIC modes are investigated here in such a photonic–plasmonic hybrid structure made up of a dielectric sinusoidal grating deposited on a flat metal layer via low‐cost fabrication methods. Such a design has not been subjected to the investigation of BIC formation so far. The structure‐supported resonant modes are numerically studied by analyzing the reflection characteristics in the parametric space. The Friedrich–Wintgen bound state (FW‐BIC) is produced by the interference of distinct resonance channels, further resulting in a quasi‐BIC hybrid mode revealed in the parametric sweep. An additional angular scan demonstrates the intrinsic symmetry‐protected BIC (SP‐BIC), and its hybridization with a plasmonic mode results in a distinct FW‐BIC mode and a quasi‐BIC hybrid mode. The experimentally obtained spectral characteristics in the angular resolved scan between 5 to 20 degrees verify the quasi‐BIC hybrid modes with good quality factors and enhanced field confinement.
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