TE resonances in graphene-dielectric structures

TL;DR

This paper explores the unique dispersion relations of TE resonances in graphene-dielectric structures, highlighting quantum effects and mode filtering capabilities relevant for advanced photonic applications.

Contribution

It provides a detailed analysis of TE plasmon dispersion and mode behavior in graphene-dielectric systems, emphasizing quantum mechanical influences on electromagnetic responses.

Findings

Identification of TE plasmon dispersion relations

Demonstration of mode filtering via dielectric thickness

Link between cutoff frequency and graphene's pair-creation threshold

Abstract

We investigate the dispersion relations of TE resonances in different graphene-dielectric structures. Previous work has shown that when a graphene layer is brought into contact with a dielectric material, a gap can appear in its electric band structure. This allows for the formation of TE-plasmons with unusual dispersion relations. In addition, if the dielectric has a finite thickness, graphene strongly modifies the behavior of the waveguiding modes by introducing dissipation above a well-defined cutoff frequency thus providing the possibility of mode filtering. This cutoff and the properties of TE-plasmons are closely related to the pair-creation threshold of graphene thus representing quantum mechanical effects that manifest themselves in the electromagnetic response.