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High-sensitivity plasmonic sensor by narrowing Fano resonances in a tilted metallic nano-groove array

Shangtong Jia, Zhi Li, Jianjun Chen

2021Optics Express16 citationsDOIOpen Access PDF

Abstract

Plasmonic sensors exhibit enormous potential in the areas of environmental monitoring, biomedical diagnostics, healthcare, food safety, security, and chemical reactions. However, the large bandwidths of surface-plasmon response spectra greatly reduce the sensitivities and detection limits of plasmonic sensors. Herein, we propose to tilt a metallic nano-groove array to reduce linewidths of Fano resonances, and the figure of merit (FOM) of a refractive index sensor is greatly increased. The Fano resonances stem from interference between narrow SPP resonant modes and a broad LSP mode in the metallic nano-groove array. When tilting the metallic nano-groove array, new Fano resonances emerge, greatly compressing the linewidth of Fano resonance of interest to ∼1.1 nm in the simulation. Experimentally, a narrow Fano resonance with a linewidth of Δλ≈2.5 nm is achieved, and a high-FOM (FOM ≈ 263) plasmonic sensor is demonstrated. This value of FOM is more than 4.7 times that (FOM ≤ 55) of Fano sensors based on SPP modes, and it is even approximately twice that (FOM ≈ 140) of the previous Fano sensor based on Wood's Anomaly.

Topics & Concepts

Fano resonanceLaser linewidthFigure of meritPlasmonOpticsMaterials scienceGroove (engineering)Fano planeSurface plasmonOptoelectronicsRefractive indexSurface plasmon polaritonSurface plasmon resonancePhysicsLaserNanoparticleNanotechnologyMetallurgyPure mathematicsMathematicsPlasmonic and Surface Plasmon ResearchPhotonic and Optical DevicesAdvanced Fiber Optic Sensors
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