Designing a Fano-resonance-based temperature sensor by side-coupling double cavities to waveguide in photonic crystals

Abstract: Optical sensors are widely used for temperature measurement in chemistry, biomedical detection, and food processing industries. In this paper, we present a highly sensitive temperature sensor based on the Fano resonance in two-dimensional photonic crystals. A carefully designed double cavity is used within the photonic crystals to symmetrically side-couple to a line-defect waveguide. Due to the direct and indirect coupling between two cavities, we found an asymmetric Fano-like line shape in the transmission sp… Show more

“…This resonant behavior offers potential applications in various fields, including sensing, optical filtering, and nonlinear optics. Previous studies have indicated that the geometric parameters of the unit structure influence the Fano resonance [4][5][6][7]. Thus, the optimum design of these unit structures plays a crucial role in both generating and modulating the Fano resonance.…”

Application of multi-objective optimization genetic algorithm to design terahertz metamaterials with fano resonances

“…This resonant behavior offers potential applications in various fields, including sensing, optical filtering, and nonlinear optics. Previous studies have indicated that the geometric parameters of the unit structure influence the Fano resonance [4][5][6][7]. Thus, the optimum design of these unit structures plays a crucial role in both generating and modulating the Fano resonance.…”

Application of multi-objective optimization genetic algorithm to design terahertz metamaterials with fano resonances

High-sensitivity nanostructure-based sensor using Fano resonance for noninvasive EEG monitoring

Porous silicon-polyvinylidene fluoride-carbon dots based portable temperature sensor