Overview
ABSTRACT
This paper presents the principle and the main properties of electromagnetic and optical metamaterials. The main physical properties are listed, with, in particular, the concept of negative refractive index, and of "left handed" materials. The concept of metasurface, derived simultaneously from frequency selective surfaces and from metamaterials, is also introduced. Some examples of applications of metamaterials and metasurfaces are presented in the microwave domain but also in optics. These examples, far from being exhaustive, demonstrate the wide range of potential applications of these materials.
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André DE LUSTRAC: Professor - Director, Institut d'Électronique Fondamentale - Institut d'Électronique Fondamentale, Université Paris Sud, Orsay, France Université Paris Ouest, Ville d'Avray, France
INTRODUCTION
Metamaterials, as their name suggests, are artificial materials with physical properties superior to those of natural materials. "Meta" is a Greek prefix meaning "beyond" or "a level above", as in metaphysical or metalogical.
Metamaterials are therefore materials with properties "beyond" what we can expect to observe in natural materials. This concept can be applied to all areas of physics. More specifically, in electromagnetism and optics, metamaterials present new properties likely to excite the imagination of researchers and engineers, such as a negative optical index or an inverted Doppler effect, for example. But we'll see later that a metamaterial doesn't always have a negative optical index. It may have only negative permittivity or permeability. It may only be magnetic, but at optical frequencies. It can also have an optical index of zero. But we'll also see that the concept of metamaterial is actually a very old one, since the first metamaterials were colored optical glasses found in Roman times, and in cathedrals where they were used to create magnificent stained-glass windows.
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KEYWORDS
microwave | electromagnetic compatibility | metamaterials | left handed materials
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Physics and chemistry
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Electromagnetic and optical metamaterials
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