Plasmonic phenomena in metals are commonly explored within the framework of classical
electrodynamics and semiclassical models for the interactions of light with free-electron …

With unique possibilities for controlling light in nanoscale devices, graphene plasmonics has
opened new perspectives to the nanophotonics community with potential applications in …

This book is meant as an introduction to graphene plasmonics and aims at the advanced
undergraduate and graduate students entering the field of plasmonics in graphene. In it …

We propose a two-dimensional plasmonic platform—periodically patterned monolayer
graphene—which hosts topological one-way edge states operable up to infrared …

In this work, we propose broadband and switchable terahertz (THz) polarization converters
based on either graphene patch metasurface (GPMS) or its complementary structure …

Plasmon hybridization, the electromagnetic analog of molecular orbital theory, provides a
simple and intuitive method to describe the plasmonic response of complex nanostructures …

Polaritons, resulting from the hybridization of light with polarization charges formed at the
boundaries between media with positive and negative dielectric response functions, can …

The ability of graphene to support long-lived, electrically tunable plasmons that interact
strongly with light, combined with its highly nonlinear optical response, has generated great …

A valley plasmonic crystal for graphene surface plasmons is proposed. We demonstrate that
a designer metagate, placed within a few nanometers of graphene, can be used to impose a …

We theoretically examine the role of Kerr nonlinearities for graphene plasmonics in
nanostructures, specifically in nanoribbons. The nonlinear Kerr interaction is included …