Broadband and Thin Linear-to-Circular Polarizers Based on Self-Complementary Zigzag Metasurfaces

Broadband and Thin Linear-to-Circular Polarizers Based on Self-Complementary Zigzag Metasurfaces

In this paper, we have studied a practical design of a broadband linear-to-circular polarizer based on a self-complementary metasurface composed of zigzag-shaped metal strips printed on a dielectric substrate. The term self-complementary indicates that the structure is identical to its complement, e...

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Bibliographic Details
Published in:IEEE transactions on antennas and propagation Vol. 65; no. 8; pp. 4124 - 4133
Main Authors: Baena, Juan D., Glybovski, Stanislav B., del Risco, Juan P., Slobozhanyuk, Alexey P., Belov, Pavel A.
Format: Journal Article
Language:English
Published: New York IEEE 01-08-2017
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects:
Broadband
Broadband antennas
Broadband communication
Circular polarization
Circularity
frequency selective surfaces
Impedance
Incidence angle
Linear polarization
Lobes
Metal strips
Metals
Metasurfaces
Polarization
Polarizers
Surface impedance
Surface waves
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Summary:In this paper, we have studied a practical design of a broadband linear-to-circular polarizer based on a self-complementary metasurface composed of zigzag-shaped metal strips printed on a dielectric substrate. The term self-complementary indicates that the structure is identical to its complement, except for some translation smaller than the periodicity. This property together with the nonresonant response of the unit cells ensures broadband conversion from linear polarization to circular polarization. Although we have experimentally achieved a relative 3-dB-axial-ratio (AR) bandwidth (BW) of 53%, in principle, it could reach up to 70.5%. Moreover, the studied metasurface has a very small periodicity, which avoids any higher order grating lobes and provides angular stability of the phenomenon. In fact, the relative 3-dB-AR BW obtained in experiments stays always above 40% for incidence angles within ±30°. An excellent agreement was achieved among theory, simulations, and experiments.
ISSN:0018-926X
1558-2221
DOI:10.1109/TAP.2017.2717964