Nonlinear Electrodynamics and Optics of Graphene

S. A. Mikhailov; N. A. Savostianova

arXiv:1810.00822·cond-mat.mes-hall·October 2, 2018

Nonlinear Electrodynamics and Optics of Graphene

S. A. Mikhailov, N. A. Savostianova

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TL;DR

This paper reviews recent theoretical advances in understanding the nonlinear electrodynamics and optical properties of graphene, including quantum effects, substrate influences, and plasma oscillations in nonlinear regimes.

Contribution

It introduces new theoretical models for nonlinear phenomena in graphene, emphasizing quantum and non-perturbative quasi-classical approaches.

Findings

01

Quantum and non-perturbative quasi-classical theories of nonlinear effects in graphene

02

Influence of substrates on graphene's nonlinear optical properties

03

Plasma oscillations in nonlinear graphene regimes

Abstract

Graphene is a two-dimensional material with strongly nonlinear electrodynamics and optical properties. We present some of our recent theoretical results on the quantum and non-perturbative quasi-classical theories of nonlinear effects in graphene, influence of substrates on graphene nonlinearities, plasma oscillations in graphene in the nonlinear regime and other effects.

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Taxonomy

TopicsGraphene research and applications · Carbon Nanotubes in Composites · Nonlinear Optical Materials Studies