Metamaterials

Note: these pages are no longer updated! Please visit www.metamaterials-vi.org for up-to-date information.

There are many definitions of metamaterials, which highlight various aspects of this concept.

Metamaterial is an arrangement of artificial structural elements, designed to achieve advantageous and unusual electromagnetic properties.

Even such a flexible definition is incomplete on the one hand, and too strict, on the other. It is helpful to draw the following analogy: Metamaterial is composed of its elements in the same sense as matter consists of atoms. But these structural elements themselves are made of conventional materials, i.e., finally, of normal atoms. Accordingly, metamaterial represents the next level of structural organization of matter.

Detailed discussions of the metamaterial concept can be found, for example, in following reviews:

Ari Sihvola, "Metamaterials in electromagnetics," Metamaterials, 1(1), pp. 2-11, 2007

 (free access to "Metamaterials")

Mikhail Lapine and Sergei Tretyakov, "Contemporary notes on metamaterials,"

IET Proc. Microwaves, Antennas & Propagation, 1(1), pp. 3-11, 2007

 (view article at IET)   or    (view article at IEEE Xplore);  see also  (NOTE)

Metamaterials are often associated with negative refraction. Large collection of historical references on that subject is offered on the  webpage of Alexander Moroz.

Some other webpages devoted to metamaterials:

Prof. David R. Smith  homepage offers a list of current publications in the field.

Selected sub-areas of metamaterial research are briefly outlined  here.