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Ultra-compact high-sensitivity plasmonic sensor based on Fano resonance with symmetry breaking ring cavity

诺共振 光学 耦合模理论 谐振器 等离子体子 不对称 对称性破坏 灵敏度(控制系统) 戒指(化学) 功勋 共振(粒子物理) 光子学 折射率 材料科学 物理 光电子学 量子力学 电子工程 工程类
作者
GuiQian Lin,Hui Yang,Dongpeng Yan,Dandan Wu,Xuan Zhou,Yunwen Wu,Guangtao Cao,Jian Chen,Wanmei Sun,Renlong Zhou
出处
期刊:Optics Express [Optica Publishing Group]
卷期号:27 (23): 33359-33359 被引量:17
标识
DOI:10.1364/oe.27.033359
摘要

Miniaturizing optical devices with desired functionality is a key prerequisite for nanoscale photonic circuits. Based on Fano resonance, an on-chip high-sensitivity sensor, composed of two waveguides coupling with a symmetry breaking ring resonator, is theoretically and numerically investigated. The established theoretical model agrees well with the finite-difference time-domain simulations, which reveals the physics of Fano resonance. Differing with the coupled cavities, the Fano resonance originates from the interference between symmetry-mode and asymmetry-mode in a single symmetry-broken cavity. The spectral responses and sensing performances of the plasmonic structure rely on the degree of asymmetry of cavity. In particular, the plasmonic sensor can detect the refractive index changes as small as 10-5, and the figure of merit (FOM) of symmetry-breaking cavity structure is 17 times larger than that of symmetrical cavity system. Additionally, the sensitivity to temperature of ethanol analyte achieves 0.701 nm/○C. Compared with the coupled cavities, the on-chip high-sensitivity sensor using a single cavity is more compact, which paves the way toward highly integrated photonic devices.

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