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Self-referenced refractive index sensor based on double-dips method with bimetal-dielectric and double-groove grating

Maolin Zhao, Junxian Wang, Yizhuo Zhang, Mengfan Ge, Pengyu Zhang, Jian Shen, Chaoyang Li

2022Optics Express18 citationsDOIOpen Access PDF

Abstract

Self-referenced refractive index sensors allow more accurate measurements and reduce the influence of extraneous factors. This work proposed a high-sensitivity, self-referenced surface plasmon resonance sensor with Na grating and Au-ZnS composite grating. When Transverse Magnetic-polarized light is incident into the prism, three surface plasmon resonances are excited at the interface of Na-MgF 2 grating and Au-ZnS grating. The first one is treated as the reference angle, the second and third are forward and backward surface plasmon resonance, respectively. Using the angular modulation, the single-dip sensitivities are 329.41 deg/RIU and 788.24 deg/RIU in the range of 1.330-1.347. To further improve the performance of the sensor, the double-dips method is adopted, and the average sensitivity in the range of 1.330-1.347 is 1117.65 deg/RIU, while the maximum reaches 4390 deg/RIU. Due to high sensitivity, a good figure of merit can be obtained even with a larger full width at half maximum of 3.30°. This proposed sensor provides potential application in the research of biomolecular detection and chemical testing.

Topics & Concepts

OpticsGratingRefractive indexMaterials scienceSurface plasmon resonanceSurface plasmonFigure of meritLocalized surface plasmonSensitivity (control systems)Resonance (particle physics)RayPlasmonSurface plasmon polaritonDiffraction gratingTransverse planeRange (aeronautics)OptoelectronicsRigorous coupled-wave analysisTotal internal reflectionStray lightElectron-beam lithographyOptical Coatings and GratingsAdvanced Fiber Optic SensorsPlasmonic and Surface Plasmon Research
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