Plasmon Resonances in a Stacked Pair of Periodic Graphene Hole Arrays

Abstract

In this paper, we investigate the plasmon reso- nances in a stacked pair of periodic graphene hole arrays by using charge oscillation picture. It is found that the plasmon resonances can be controlled by changing the longitudinal interval G between two arrays, and the lateral displacements Lx and Ly, which are parallel and perpendicular to the polarization direction of the incident light, respectively. The plasmon resonance can be tuned over a wide wavelength range by a small change of G due to its influence on the strength of electromagnetic coupling between two arrays. The lateral displacement Lx causes new plasmon resonance modes, originating from the appearance of new electromag- netic coupling manners, while the lateral displacement Ly leads to the splitting of plasmon resonance mode, which results from two different electromagnetic coupling man- ners. Our study gives an insight into the physical mechanism of plasmon resonances in two graphene hole arrays, and our findings may hold great promise in designing graphene- based plasmonic devices and metamaterials.