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Design and analysis of highly sensitive solid core gold-coated hexagonal photonic crystal fiber sensor based on surface plasmon resonance

Monika Kiroriwal, Poonam Singal

2021Journal of Nanophotonics22 citationsDOI

Abstract

A surface plasmon-based hexagonal photonic crystal fiber sensor is numerically computed and studied covering a large span of analyte refractive index from 1.33 to 1.40. Structural design parameters are optimized to improve the sensor performance. Investigation of sensor sensitivity has been performed by analyzing the electromagnetic behavior of light using finite element method-based mode solver. The studied sensor yields the maximum amplitude sensitivity of 3958.84 RIU − 1 at analyte RI of 1.39 and moderate wavelength sensitivity of 8000 nm RIU − 1 at analyte RI of 1.40. The observed results are also presented by changing the gold layer thickness, lattice period, and air hole diameter. The reported plasmonic sensor is an appealing aspirant in the field of biochemical sensing, biomolecule detection, and biological sample recognition.

Topics & Concepts

Materials sciencePhotonic-crystal fiberAnalyteSurface plasmon resonancePlasmonRefractive indexPhotonic crystalHexagonal latticeOpticsSurface plasmonOptoelectronicsOptical fiberWavelengthNanotechnologyChemistryNanoparticleCondensed matter physicsAntiferromagnetismPhysical chemistryPhysicsAdvanced Fiber Optic SensorsPlasmonic and Surface Plasmon ResearchPhotonic and Optical Devices
Design and analysis of highly sensitive solid core gold-coated hexagonal photonic crystal fiber sensor based on surface plasmon resonance | Litcius