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Theoretical Analysis of Diffraction Grating-Based SPR Sensor Using the Rigorous Coupled Wave Analysis Method

Suryansh Saxena, Yagyasha Rastogi, Navneet K. Sharma

2025Plasmonics16 citationsDOIOpen Access PDF

Abstract

Abstract Surface plasmon resonance (SPR) sensors are crucial for highly sensitive, label-free detection in various applications, including biosensing and environmental monitoring. This study investigates the sensitivity and performance of diffraction grating-based SPR sensors using rigorous coupled wave analysis (RCWA). The analysis focuses on single- and bi-layered metallic structures composed of copper, gold, and silver. The results reveal that single-layer silver sensors exhibit the highest sensitivity of 169.37°/RIU followed by Au and Cu with a sensitivity of 168.4°/RIU and 167.9°/RIU respectively. Further, to enhance the stability and reliability, bilayered configurations were introduced, incorporating protective coatings of one metal over the other. Among the bilayered configurations, Ag-Cu demonstrated the greatest sensitivity of 175°/RIU followed by Ag-Au with a sensitivity of 173.25°/RIU and Au-Cu with the sensitivity of 168.5°/RIU. This study establishes the potential of bi-metallic SPR sensors for achieving superior sensitivity and stability, highlighting their applicability in advanced detection systems. The novel insight into the interplay between material properties and sensor performance offers a roadmap for designing next-generation plasmonic sensors.

Topics & Concepts

Surface plasmon resonanceMaterials scienceSensitivity (control systems)GratingPlasmonBiosensorDiffractionRigorous coupled-wave analysisNanotechnologyOptoelectronicsDiffraction gratingOpticsElectronic engineeringNanoparticlePhysicsEngineeringPlasmonic and Surface Plasmon ResearchAdvanced Fiber Optic SensorsOptical Coatings and Gratings
Theoretical Analysis of Diffraction Grating-Based SPR Sensor Using the Rigorous Coupled Wave Analysis Method | Litcius