DocumentCode
27457
Title
Surface Wave Dispersion for Anisotropic Metasurfaces Constituted by Elliptical Patches
Author
Mencagli, Mario ; Martini, Enrica ; Maci, Stefano
Author_Institution
Dept. of Inf. Eng. & Math., Univ. of Siena, Siena, Italy
Volume
63
Issue
7
fYear
2015
fDate
Jul-15
Firstpage
2992
Lastpage
3003
Abstract
This paper presents an effective approach for the derivation of the two-dimensional (2-D) frequency-wavenumber dispersion surface of anisotropic metasurfaces (MTSs) consisting of elliptical patches printed over a grounded slab. These MTSs are important in the design of leaky-wave antennas and transformation optics (TO) surface-wave based devices. The formulation resorts to an analytical expression of the currents excited on the element of the periodic texture to define a reduced spectral method of moments (MoM) procedure with only three basis functions. An exact compact formula, which links the MoM matrix to the homogenized equivalent anisotropic impedance of the MTS, is derived. The formulation presented here has been found accurate and useful for designing MTS antennas and TO devices.
Keywords
electromagnetic metamaterials; leaky wave antennas; matrix algebra; metamaterial antennas; method of moments; microstrip antennas; 2D frequency-wavenumber dispersion surface; MTS antennas; MoM matrix; TO devices; anisotropic metasurfaces; elliptical patches; exact compact formula; grounded slab; homogenized equivalent anisotropic impedance; leaky-wave antennas; periodic texture; reduced spectral method-of-moments procedure; surface wave dispersion; surface-wave based devices; transformation optics; Dispersion; Impedance; Manganese; Method of moments; Optical surface waves; Slabs; Surface impedance; Dispersion; Metasurfaces; dispersion; metasurfaces (MTSs); method of moments; method of moments (MoM); surface impedance; surface waves; surface waves (SWs);
fLanguage
English
Journal_Title
Antennas and Propagation, IEEE Transactions on
Publisher
ieee
ISSN
0018-926X
Type
jour
DOI
10.1109/TAP.2015.2422352
Filename
7086018
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