The plasmon induce-transparency (PIT) is a promising research area for slow light,
nonlinearity, metamaterial, and sensing applications. This physical phenomenon originated …

We introduce a novel two-oscillator model with damping factor to describe the plasmon
induced transparency (PIT) in a bright-dark model plasmonic waveguide system. The …

A compact structure is proposed to achieve electromagnetically induced transparency (EIT)
response, which consists of a side-coupled cavity and a ring resonator. Novel structures and …

A nanoscale structure which comprises metal-insulator-metal (MIM) waveguide, stub
resonator, and hexagonal resonator is proposed to realize plasmon-induced transparency …

We demonstrate the realization of on chip plasmon-induced transparency using dual ring
resonators coupling to metal–dielectric–metal bus waveguide. The theoretical results agree …

We have demonstrated the analogue of electromagnetically induced transparency (EIT) in
the metal–insulator–metal plasmonic waveguide, which consists of a bus waveguide side …

A compact plasmonic system based on a stub metal-insulator-metal (MIM) waveguide
coupled with a nanodisk resonator for plasmonic-induced transparency (PIT) has been …

Plasmon-induced transparency is an efficient way to mimic electromagnetically induced
transparency, which can eliminate the opaque effect of medium to the propagating …

An analog of plasmonic system for electromagnetically induced transparency (EIT), in which
a small nanodisk with a big side-coupled-nanodisk is directly coupled to the metal-insulator …

On-chip plasmon-induced transparency offers the possibility of realization of ultrahigh-speed
information processing chips. Unfortunately, little experimental progress has been made to …