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D-type single- and dual-core fiber-optic magnetic field sensor based on surface plasmon resonance

Lei Zhao, Hua Yang, Yi Zao, Chaojun Tang, Juan Deng, Junqiao Wang, Boxun Li, Shubo Chengi

2026International Journal of Modern Physics B21 citationsDOI

Abstract

In this paper, D-type single-core fiber optic sensors and dual-core sensors based on surface plasmon resonance are devised with the purpose of comparatively exploring the characteristics of the single- and dual-core models. There is a plane that is thrown out on the surface of the fiber, and we coat this appearance with a layer of silver (Ag), rotating a cyclic distribution of air holes arranged around the PCF core’s perimeter. Three strategically positioned apertures beneath the silver film create two leakage windows. This not only avoids the outward diffusion of the energy of the Y-polarized (Y-POL) core modes, but also facilitates the coupling of Y-POL core modes to the silver film via the leakage windows. In this paper, the internal structure of the optical fibre is optimized by adjusting its structural parameters through finite element analysis and observing the sensing characteristic parameters such as peak loss and half peak width. After obtaining the optimum peak, the sensitivity to refractive index and magnetic field testing is investigated. The sensor utilizes the magnetic field sensitivity properties of magnetic fluids (MF) for magnetic field sensing. Our study shows that such a single-core model of the SPR-PCF sensor can bring about a magnetic field sensitivity of 110[Formula: see text]pm/mT, while the dual-core one can reach 223[Formula: see text]pm/mT. Fibre-optic magnetic field sensors are extensively utilized in biomedicine, environmental monitoring, engineering construction and other fields because of their characteristics of not being interfered by electromagnetic radiation, small size and high sensitivity and they play an increasingly pivotal role in modern science and technology and engineering fields.

Topics & Concepts

Materials scienceMagnetic fieldSensitivity (control systems)Refractive indexOptical fiberLeakage (economics)OpticsOptoelectronicsSurface plasmonCore (optical fiber)Coupling (piping)Electromagnetic fieldMagnetic coreFinite element methodFiber optic sensorField (mathematics)PlasmonLocalized surface plasmonSurface plasmon resonanceMagnetic energyInductive couplingMagnetostaticsSurface plasmon polaritonNuclear magnetic resonanceCladding (metalworking)Fano resonanceMagnetic nanoparticlesNear and far fieldAdvanced Fiber Optic SensorsPlasmonic and Surface Plasmon ResearchMagneto-Optical Properties and Applications
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