Title :
Propagation and Negative Refraction
Author :
Hunter, Ian Charles ; Abunjaileh, Alaa Ibrahim ; Rhodes, John David ; Snyder, Richard Vincent ; Meng, Meng
Author_Institution :
Univ. of Leeds, Leeds, UK
Abstract :
In this article, we present a new theory to explain the phenomenon of negative refraction in bulk metamaterials. Unlike earlier theories, it does not rely on the existence of a single mode of propagation in materials with negative constitutive parameters. It is based on the interaction and phase reversal effects caused by the existence of two simultaneous electromagnetic (EM) modes in uniform inhomogeneous metamaterial structures. The theory is general in the sense that it may be applied with equal validity to quasilumped circuit-based microwave metamaterials and to optical negative refraction in bulk nanowire metamaterials. Validity of the theory is demonstrated with EM simulations of microwave and optical metamaterials.
Keywords :
electromagnetic wave refraction; inhomogeneous media; metamaterials; EM simulation; bulk nanowire metamaterials; interaction effect; negative constitutive parameters; optical metamaterial; optical negative refraction; phase reversal effect; quasilumped circuit-based microwave metamaterials; simultaneous electromagnetic mode; uniform inhomogeneous metamaterial structures; Diffraction; Metamaterials; Passive networks; Plasmons; Three dimensional displays; Two dimensional displays;
Journal_Title :
Microwave Magazine, IEEE
DOI :
10.1109/MMM.2012.2197144
