Simple and Improved Plasmonic Sensor Configuration Established on Mim Waveguide for Enhanced Sensing Performance

Abstract: Herein, two simple configurations of Fano resonance-based plasmonic sensors are proposed for temperature and biosensing applications. The device optimization and sensing performance are numerically investigated via two dimensional-finite element method (2D-FEM). The former configuration is quite simple and based on the side coupled circular cavity (SCCC) whereas in the latter the circular cavity is encapsulated in the ring separated by a small gap and is known as ring encapsulated circular cavity (RECC). For t… Show more

“…When it comes to creating nanoscale integrated photonic circuits, MIM waveguide architectures are one of the most efficient methods, and they are largely favored in optical communication [32,33] and the sensing domain [34][35][36]. A dielectric core, which may be made of air or another material with a low refractive index, is sandwiched between two metal claddings in this three-layer waveguide design.…”

Miniaturized Design of a 1 × 2 Plasmonic Demultiplexer Based on Metal–Insulator-Metal Waveguide for Telecommunication Wavelengths

“…When it comes to creating nanoscale integrated photonic circuits, MIM waveguide architectures are one of the most efficient methods, and they are largely favored in optical communication [32,33] and the sensing domain [34][35][36]. A dielectric core, which may be made of air or another material with a low refractive index, is sandwiched between two metal claddings in this three-layer waveguide design.…”

Miniaturized Design of a 1 × 2 Plasmonic Demultiplexer Based on Metal–Insulator-Metal Waveguide for Telecommunication Wavelengths