DocumentCode
770194
Title
Synthesis of new variable dielectric profile antennas via inverse scattering techniques: a feasibility study
Author
Bucci, Ovidio Mario ; Catapano, Ilaria ; Crocco, Lorenzo ; Isernia, Tommaso
Author_Institution
Inst. per il Rilevamento Elettromagnetico dell´´Ambiente, IREA-CNR, Napoli, Italy
Volume
53
Issue
4
fYear
2005
fDate
4/1/2005 12:00:00 AM
Firstpage
1287
Lastpage
1297
Abstract
In this paper, we investigate whether and how one can synthesize given far field patterns by acting on the dielectric profile of a lens antenna. In particular, an approach to design a radiating system consisting of a variable dielectric profile and a single or a low number of feeds is proposed and discussed. To properly take into account physical and practical feasibility issues, the proposed method splits the problem into two steps. The first one is aimed to fix design goals (i.e., the nominal field), in such a way to avoid super-directive or physically unfeasible antennas and properly exploits known properties of electromagnetic fields radiated by finite extent sources. The second step, dealing with the dielectric profile synthesis, is based on suitable modifications of inverse scattering techniques and can take into account constraints on the spatial behavior as well as of dielectric characteristics of the profile to be synthesized. To show the interest of the subject, as well as effectiveness of the proposed approach, the synthesis of new dielectric antennas, such as a high directivity source and a lens radiating a steerable degradation-free Chebyshev pattern, is considered in the two dimensional scalar case.
Keywords
antenna feeds; antenna radiation patterns; antenna theory; dielectric materials; electromagnetic wave scattering; lens antennas; shaped beam antennas; antenna feeds; antenna theory; dielectric profile synthesis; electromagnetic fields radiation; far field patterns; inverse scattering techniques; lens antenna; shaped beam antennas; steerable degradation-free Chebyshev pattern; variable dielectric profile antennas; Antenna theory; Degradation; Dielectric materials; Inverse problems; Lenses; Mobile antennas; Mobile communication; Optical materials; Radar antennas; Telecommunications; Antenna theory; antennas synthesis; inverse scattering; lens antennas; shaped beam antennas;
fLanguage
English
Journal_Title
Antennas and Propagation, IEEE Transactions on
Publisher
ieee
ISSN
0018-926X
Type
jour
DOI
10.1109/TAP.2005.844426
Filename
1417208
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