Litcius/Paper detail

Surface plasmon polaritons enhanced magnetic plasmon resonance for high-quality sensing

Jing Chen, Cheng Lü, Lianjie Zhao, Ping Gu, Zhendong Yan, Chaojun Tang, Fan Gao, Mingwei Zhu

2022Applied Physics Express18 citationsDOI

Abstract

Abstract We investigate the metamaterials consisting of top layer U-shaped metallic split-ring resonators, the middle thin dielectric layer, and the bottom thick metal film, which can realize high-quality refractive index sensing. When propagating surface plasmon polaritons are introduced, two ultra-narrow-band hybridized modes will appear, whose full width at half maximum can reach up to 2.5 nm. Because of the ultra-narrow linewidth and huge magnetic field enhancement at hybridized modes, the metamaterials display very high sensitivity ( S = 912 nm RIU −1 , S * = 95.64 RIU −1 ) and large figure of merit (FOM = 364.8, FOM*= 160 740.34), which has great potential in label-free biomedical sensing.

Topics & Concepts

Figure of meritLaser linewidthMetamaterialMaterials scienceSurface plasmon polaritonLocalized surface plasmonSurface plasmonSurface plasmon resonanceRefractive indexPlasmonOptoelectronicsSplit-ring resonatorResonatorDielectricOpticsNanotechnologyPhysicsNanoparticleLaserPlasmonic and Surface Plasmon ResearchMetamaterials and Metasurfaces ApplicationsOrbital Angular Momentum in Optics