Broadband, Single-Layer Dual Circularly Polarized Reflectarrays With Linearly Polarized Feed

A broadband single layer, dual circularly polarized (CP) reflectarrays with linearly polarized feed is introduced in this paper. To reduce the electrical interference between the two orthogonal polarizations of the CP element, a novel subwavelength multiresonance element with a Jerusalem cross and a...

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Published in	IEEE transactions on antennas and propagation Vol. 64; no. 10; pp. 4235 - 4241
Main Authors	Wu, Geng-Bo, Qu, Shi-Wei, Yang, Shiwen, Chan, Chi Hou
Format	Journal Article
Language	English
Published	New York IEEE 01.10.2016 The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects	Bandwidth Broadband Broadband antennas circularly polarization (CP) Couplings Feeds Interference Mutual coupling reflectarray Reflection single layer
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Abstract	A broadband single layer, dual circularly polarized (CP) reflectarrays with linearly polarized feed is introduced in this paper. To reduce the electrical interference between the two orthogonal polarizations of the CP element, a novel subwavelength multiresonance element with a Jerusalem cross and an open loop is proposed, which presents a broader bandwidth and phase range excessing 360° simultaneously. By tuning the x- and y-axis dimensions of the proposed element, an optimization technique is used to minimize the phase errors on both orthogonal components. Then, a single-layer offset-fed 20 × 20-element dual-CP reflectarray has been designed and fabricated. The measured results show that the 1-dB gain and 3-dB axial ratio (AR) bandwidths of the dual-CP reflectarray can reach 12.5% and 50%, respectively, which shows a significant improvement in gain and AR bandwidths as compared to reflectarrays with conventional λ/2 cross-dipole elements.
AbstractList	A broadband single layer, dual circularly polarized (CP) reflectarrays with linearly polarized feed is introduced in this paper. To reduce the electrical interference between the two orthogonal polarizations of the CP element, a novel subwavelength multiresonance element with a Jerusalem cross and an open loop is proposed, which presents a broader bandwidth and phase range excessing 360° simultaneously. By tuning the x- and y-axis dimensions of the proposed element, an optimization technique is used to minimize the phase errors on both orthogonal components. Then, a single-layer offset-fed 20 × 20-element dual-CP reflectarray has been designed and fabricated. The measured results show that the 1-dB gain and 3-dB axial ratio (AR) bandwidths of the dual-CP reflectarray can reach 12.5% and 50%, respectively, which shows a significant improvement in gain and AR bandwidths as compared to reflectarrays with conventional λ/2 cross-dipole elements. A broadband single layer, dual circularly polarized (CP) reflectarrays with linearly polarized feed is introduced in this paper. To reduce the electrical interference between the two orthogonal polarizations of the CP element, a novel subwavelength multiresonance element with a Jerusalem cross and an open loop is proposed, which presents a broader bandwidth and phase range excessing 360° simultaneously. By tuning the [Formula Omitted]- and [Formula Omitted]-axis dimensions of the proposed element, an optimization technique is used to minimize the phase errors on both orthogonal components. Then, a single-layer offset-fed [Formula Omitted]-element dual-CP reflectarray has been designed and fabricated. The measured results show that the 1-dB gain and 3-dB axial ratio (AR) bandwidths of the dual-CP reflectarray can reach 12.5% and 50%, respectively, which shows a significant improvement in gain and AR bandwidths as compared to reflectarrays with conventional [Formula Omitted]/2 cross-dipole elements.
Author	Geng-Bo Wu Shiwen Yang Chi Hou Chan Shi-Wei Qu
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SubjectTerms	Bandwidth Broadband Broadband antennas circularly polarization (CP) Couplings Feeds Interference Mutual coupling reflectarray Reflection single layer
Title	Broadband, Single-Layer Dual Circularly Polarized Reflectarrays With Linearly Polarized Feed
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