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High FOM fano resonance refractive-index sensor based on a baffled MIM waveguide coupled with an inverted L-Shaped resonator

Tianshan Chen, Jiayao Gao, Xiangxian Wang, Yizhen Chen, Hua Yang, Yunping Qi

2024Physica Scripta32 citationsDOI

Abstract

Abstract A baffled metal-insulator-metal (MIM) waveguide coupled with an L-shaped resonator was developed and a double Fano resonance was excited in the structure. Using the optimal parameters, the sensing characteristics of the structure in a gas environment were studied. The maximum sensitivity was 682 nm/RIU and the maximum figure of merit (FOM) was 7587. Based on this structure, the influence of the resonators on the transmittance characteristics was studied for four different placement ways. A triple Fano resonance was obtained by simply inverting the L-shaped resonator. In this state, the maximum sensitivity and FOM reached 945 nm/RIU and 1.04 × 10 5 , respectively. Compared with the L-shaped resonator structure, the sensitivity and FOM of the inverted L-shaped resonator structure were significantly improved. This study provides a new concept for designing a refractive-index sensor with miniaturization, integration, high sensitivity, high FOM, and multichannel sensing.

Topics & Concepts

ResonatorFigure of meritFano resonanceSensitivity (control systems)Materials scienceRefractive indexResonance (particle physics)OpticsTransmittanceExcited stateWaveguideCoupling (piping)OptoelectronicsPhysicsPlasmonElectronic engineeringAtomic physicsMetallurgyEngineeringPhotonic and Optical DevicesPlasmonic and Surface Plasmon ResearchAdvanced Fiber Optic Sensors
High FOM fano resonance refractive-index sensor based on a baffled MIM waveguide coupled with an inverted L-Shaped resonator | Litcius