Tunable multiple plasmon-induced transparencies in multiple T-shaped cavities waveguide based on Dirac semimetals

We study the multiple plasmon-induced transparencies (PIT) in the waveguide structure based on bulk Dirac semimetal (BDS) containing multiple side-coupled T-shaped cavities. Using the finite element method, we mainly investigate the transmission spectra, the transmission phase shifts, the delay times, and the magnetic field distributions of the two T-shaped cavities waveguide structure. It is shown that their transmission characteristics strongly depend on the geometric parameters of the waveguide structure. In addition, we discuss the effect of the Fermi level of BDS and the refractive index of the medium on the transmission spectrum of the two T-shaped cavities structure. To get more PIT peaks, we try to simulate the transmission spectrum of three T-shaped cavities waveguide structure. All the results about the multiple PIT phenomena may have some possible applications in designing lenses, high-capacity storage devices, and new filters. (c) 2023 Society of Photo-Optical Instrumentation Engineers (SPIE)

Automated summary

We study the multiple plasmon-induced transparencies (PIT) in the waveguide structure based on bulk Dirac semimetal (BDS) containing multiple side-coupled T-shaped cavities. The transmission characteristics strongly depend on the geometric parameters, Fermi level of BDS, and refractive index of the medium. Simulating the transmission spectrum of three T-shaped cavities waveguide structure shows potential applications in designing lenses, high-capacity storage devices, and new filters.