Combining Pancharatnam-Berry Phase and Spherical Conformal Transmitarray for High-Efficiency Beam Focusing

IF 4.6 1区 计算机科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE Transactions on Antennas and Propagation Pub Date : 2024-08-29 DOI:10.1109/TAP.2024.3449077
Xin Yang;Shuangshuang Chen;Yongpin Chen;Yanwen Zhao;Chenbo Shi;Jun Hu;Deqiang Yang
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Abstract

In this article, a Pancharatnam-Berry (PB) phase-based spherical conformal transmitarray (SCTA) is proposed. With the aim of achieving high aperture efficiency (AE), the Goldberg polyhedron typology is introduced to realize spherical conformal aperture. In this manner, the issue of oblique incidence encountered in planar and cylindrical conformal transmitarray antennas (TAs) is addressed, thereby obviating the associated phase error and amplitude attenuation. Moreover, a significant reduction in both total volume and effective aperture area is achieved for the SCTA when compared to its planar TA counterparts. Furthermore, a single-layered PB phase-based unit cell is designed to realize precise transmission phase control with 360° phase coverage by rotating the unit cell. Detailed derivations and analyses are conducted to acquire the transmission phases and the rotation angles of all the unit cells. Consequently, a high-efficiency PB-SCTA antenna, comprising 88 unit cells, has been designed within a hemispherical structure with a radius of ${2.38\lambda _{0}}$ , the PB-SCTA is full-wave simulated, manufactured, and measured. The proposed PB-SCTA, operating at 14.25 GHz, has achieved a high gain of 20.03 dB, a high AE of 60.1%, and salient front-to-back ratio (FBR), sidelobe level (SLL), and cross-polarization level (XPL) performances. Comparisons are carried out between the proposed PB-SCTA and various state-of-the-art TAs to demonstrate the superiority of the proposed design in terms of structural compactness, unit cell complexity, and radiation performance.
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将 Pancharatnam-Berry 相位与球形共形透射阵列相结合,实现高效光束聚焦
本文提出了一种基于 Pancharatnam-Berry (PB) 相位的球面共形透射阵列(SCTA)。为了实现高孔径效率(AE),本文引入了戈德堡多面体类型学来实现球面共形孔径。这样,平面和圆柱共形发射阵列天线(TA)中遇到的斜入射问题就得到了解决,从而避免了相关的相位误差和振幅衰减。此外,与平面共形发射阵列天线相比,SCTA 的总体积和有效孔径面积都大大缩小。此外,还设计了基于相位的单层 PB 单元,通过旋转单元可实现 360° 相位覆盖的精确传输相位控制。对所有单元单元的传输相位和旋转角度进行了详细的推导和分析。因此,在半径为 ${2.38\lambda _{0}}$ 的半球形结构中设计出了由 88 个单元组成的高效 PB-SCTA 天线,并对 PB-SCTA 进行了全波仿真、制造和测量。所提出的 PB-SCTA 工作频率为 14.25 GHz,实现了 20.03 dB 的高增益、60.1% 的高 AE 值,以及突出的前后比 (FBR)、侧瓣电平 (SLL) 和跨极化电平 (XPL) 性能。我们将拟议的 PB-SCTA 与各种最先进的 TA 进行了比较,以证明拟议设计在结构紧凑度、单元复杂性和辐射性能方面的优越性。
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来源期刊
CiteScore
10.40
自引率
28.10%
发文量
968
审稿时长
4.7 months
期刊介绍: IEEE Transactions on Antennas and Propagation includes theoretical and experimental advances in antennas, including design and development, and in the propagation of electromagnetic waves, including scattering, diffraction, and interaction with continuous media; and applications pertaining to antennas and propagation, such as remote sensing, applied optics, and millimeter and submillimeter wave techniques
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