Design of ultracompact tunable fractional-order temporal differentiators based on hybrid-plasmonic phase-shifted Bragg gratings

Abstract: The design and the simulation of tunable fractional-order temporal differentiators based on Si-hybrid plasmonic phase-shifted Bragg gratings are proposed in this paper, where strong light confinement in the hybrid plasmonic waveguide is employed to significantly reduce the overall length of the differentiators. According to 2D- and 3D-FDTD simulation results, the proposed structures with overall lengths of less than 8 μm can provide arbitrary differentiation order and differentiation bandwidths as high as 1.6 … Show more

“…However, SPPs have very high loss, making it difficult to construct devices or integrated circuits using only SPPs 5 , 6 . To address these issues, devices applying hybrid plasmonic structures that combine light and SPPs to effectively utilize the features of each to reduce losses have been reported 7 – 17 .…”

Experimental confirmation of self-imaging effect between guided light and surface plasmon polaritons in hybrid plasmonic waveguides

“…However, SPPs have very high loss, making it difficult to construct devices or integrated circuits using only SPPs 5 , 6 . To address these issues, devices applying hybrid plasmonic structures that combine light and SPPs to effectively utilize the features of each to reduce losses have been reported 7 – 17 .…”

Experimental confirmation of self-imaging effect between guided light and surface plasmon polaritons in hybrid plasmonic waveguides

Particle swarm optimization and finite-difference time-domain (PSO/FDTD) algorithms for a surface plasmon resonance-based gas sensor

Subpicosecond flat-top pulse shaping using a hybrid plasmonic microring-based temporal differentiator