Litcius/Paper detail

Controlled and tunable plasmon-induced transparency based on graphene metasurfaces in atmospheric windows

Hongting Chen, Zhaojian Zhang, Junbo Yang, Zigang Zhou

2022Diamond and Related Materials15 citationsDOIOpen Access PDF

Abstract

Considering the development of plasmon-induced transparency functional devices and the research value of the atmospheric windows in many civilian and military applications, we propose a mid-infrared metasurface composed of a multilayer elliptical graphene and two graphene strips that can generate PIT, and the PIT can be dynamically tuned in the range of 3.67 μm–9.53 μm beyond monolayer graphene. The numerical results from Finite-Difference Time-Domain (FDTD) method are consistent with the analytical results from Lorentz oscillator theory. In addition, we can control the generation and vanishment of the PIT by changing the polarization of the source, achieving a triple-frequency asynchronous switch, and the performance index indicates that the modulation depth is maintained at about 90% at a relatively high Fermi energy level. Our work achieves a dynamically tunable and controllable PIT for applications including filters and optical switches in atmospheric windows.

Topics & Concepts

GrapheneFinite-difference time-domain methodPlasmonOptoelectronicsMaterials scienceOpticsFermi energyNanotechnologyElectronPhysicsQuantum mechanicsPlasmonic and Surface Plasmon ResearchMetamaterials and Metasurfaces ApplicationsThermal Radiation and Cooling Technologies