Towards twisted, topological, and quantum graphene plasmonics
A. Oct\'avio Soares, Nuno M. R. Peres
TL;DR
This paper explores the quantum and topological properties of various graphene-based plasmonic systems, including different stacking configurations and architectures, to advance understanding in graphene plasmonics.
Contribution
It provides a comprehensive analysis of quantum and topological aspects across multiple graphene plasmonic structures and configurations.
Findings
Analyzed quantum properties of single-layer and twisted bilayer graphene
Examined topological features in graphene-based gratings and lattices
Identified potential for novel plasmonic applications in topological graphene systems
Abstract
In this article, we analyze the quantum and topological properties of graphene-based plasmonic systems. We consider the following plasmonic materials: single-layer graphene, twisted bilayer graphene, and other graphene stackings, as well as the following architectures: graphene-based gratings, grids, chains of graphene disks, and the kagom\'e lattice.
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