A Short Review of Plasmonic Graphene-Based Resonators: Recent Advances and Prospects

TL;DR

This paper reviews recent developments in plasmonic graphene-based resonators, highlighting their design principles, types, and potential applications, providing a comprehensive overview for researchers in the field.

Contribution

It offers a historical overview and categorization of graphene resonators, enhancing understanding of their physical principles and recent advancements.

Findings

Identification of four main types of graphene resonators

Insights into how graphene conductivity influences resonator design

Summary of recent progress and future prospects in the field

Abstract

This article aims to study graphene-based resonators published in the literature. Graphene resonators are designed based on graphene conductivity, a variable parameter that can be changed by either electrostatic or magnetostatic gating. A historical review of plasmonic graphene resonators is presented in this paper, which can give physical insight to the researchers to be familiarized with four types of graphene-based resonators: 1-Ring resonators, 2- planar, 3- Fabry-Perot, and 4-other resonators which are not categorized in any of the other three groups.