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Multiple Fano Resonances in a Metal–Insulator–Metal Waveguide for Nano-Sensing of Multiple Biological Parameters and Tunable Slow Light

Ruiqi Zhang, He Tian, Yang Liu, Shihang Cui

2023Photonics13 citationsDOIOpen Access PDF

Abstract

A surface plasmonic waveguide made of metal–insulator–metal (MIM) capable of generating triple Fano resonances is proposed and numerically investigated for multi-biological parameter sensing as well as tunable slow light. The waveguide is made up of a bus waveguide with a silver baffle, a square split-ring cavity with a square center (SSRCSC), and a circular ring cavity with a square center (CRCSC). Based on the triple Fano resonances, human blood temperature and plasma concentration are measured simultaneously at different locations in the waveguide, and the maximum sensitivities were 0.25 nm/°C and 0.2 nm·L/g, respectively. Furthermore, the two biological parameters can be used to achieve tunable slow light, and it was found that the group delay responses to human blood temperature and plasma concentration all conformed to cubic functions. The MIM waveguide may have great applications in future nano-sensing of multiple biological parameters and information processing of optical chips or bio-optical chips.

Topics & Concepts

Fano resonanceWaveguideMetal-insulator-metalPlasmonMaterials scienceSurface plasmonOptoelectronicsOpticsSlow lightNanosphere lithographyFinite-difference time-domain methodMetalPhotonicsPhotonic crystalPhysicsFabricationPathologyQuantum mechanicsMetallurgyMedicineVoltageCapacitorAlternative medicinePlasmonic and Surface Plasmon ResearchPhotonic and Optical DevicesPhotonic Crystals and Applications
Multiple Fano Resonances in a Metal–Insulator–Metal Waveguide for Nano-Sensing of Multiple Biological Parameters and Tunable Slow Light | Litcius