Overview
FrançaisABSTRACT
This article describes the basic principles of metasurfaces and their main applications in microwaves and optics. It highlights the fundamental differences that exist between metamaterials and metasurfaces, as well as the distinct approaches between the microwave and optical domains. Beyond the passive metasurfaces that have existed since the invention of radar in the 1930s, the article details the concepts and developments that appeared recently. The main applications of passive and reconfigurable metasurfaces in telecommunications, absorption, and holography are presented.
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André de LUSTRAC: Professor Emeritus, University of Paris Nanterre, - Nanoscience and Nanotechnology Center, Université Paris-Saclay, France
INTRODUCTION
The term metasurface refers to electromagnetic or optical structures separating two media, whose thickness is small compared to the working wavelength, typically of the order of a tenth, and whose properties go beyond the conventional interfaces of metals or dielectrics. This concept of metasurface follows on from that of metamaterials. It differs from metamaterials in that the geometrical constraint of the structure's thickness, which is small compared to its wavelength, means that we no longer speak of equivalent optical indexes as in the case of metamaterials, but rather emphasize the transmission, reflection, absorption and polarization transformation properties of these structures. It also differs in the wealth of properties that researchers have attributed to these metasurfaces.
Historically, these metasurfaces were preceded by frequency-selective surfaces in the 1940s, following the invention of radar in the 1930s
In the microwave field, the development of metasurfaces is closely linked to the development of radar and telecommunications. In the radar field, they are used to attenuate or modify the radar echo of an object, or of certain elements of that object. In telecommunications, they can be used to focus or deflect one or more beams, to transform the polarization of a wave, etc.
In the optical field, metasurfaces are of more recent invention, typically 2010. Indeed, the constraints on their realization in this field are such that their development has followed the progress of nanotechnologies in terahertz, then in infrared, and finally in the visible
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KEYWORDS
antenna | metasurface | frequency selective surface | absorber
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Metasurfaces
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