Computational Modeling of Graphene and Carbon Nanotube Structures in the Terahertz, Near-Infrared, and Optical Regimes

Authored by: M. F. Pantoja , D. Mateos Romero , H. Lin , S. G. Garcia , D. H. Werner

Graphene Science Handbook

Print publication date:  April  2016
Online publication date:  April  2016

Print ISBN: 9781466591370
eBook ISBN: 9781466591387
Adobe ISBN:

10.1201/b19461-29

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Abstract

This chapter introduces some computational electromagnetic techniques that can simulate the interaction of electromagnetic waves with graphene and carbon nanotubes from a macroscopic perspective. The link with the electromagnetic fields is achieved by employing appropriate Maxwell's equations in conjunction with material parameter models derived from quantum mechanics description. The modeling tools will enable a new generation of electromagnetic devices to be computationally explored, while providing a realistic perspective on future possibilities for graphene-based technology.

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