Single-layer Wideband Reflectarray with dual-polarization for multiple OAM beams

IF 1.6 Q3 OPTICS OSA Continuum Pub Date : 2021-08-15 DOI:10.1364/OSAC.427110
Hui-fen Huang, Shuhui Xie
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引用次数: 1

Abstract

In this paper, a single-layer wideband dual-linearly polarized reflective element is developed operating from 13GHz to 15.5GHz. The developed reflective metasurface can produce orbital angular momentum (OAM) vortex waves with required modes, beam numbers, direction, x-, y- or both x- and -y polarizations. To demonstrate this versatility, three reflectarrays with multiple modes, multiple beams, and both x- and -y polarizations are designed, and one is fabricated and measured to validate the design. The measured peak gain, aperture efficiency, divergence angle is 19dBi, 11.54%, 6°, respectively. The designed reflectarray has potential applications for high communication rate.
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用于多OAM波束的单层双偏振宽带反射阵
本文研制了一种工作频率为13GHz ~ 15.5GHz的单层宽带双线偏振反射元件。所开发的反射超表面可以产生具有所需模式、波束数、方向、x偏振、y偏振或x偏振和y偏振的轨道角动量涡旋波。为了证明这种多功能性,设计了三种具有多模式、多光束、x偏振和y偏振的反射射线,并制造和测量了一种反射射线来验证设计。测得的峰值增益为19dBi,孔径效率为11.54%,发散角为6°。所设计的反射器在高通信速率方面具有潜在的应用前景。
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来源期刊
OSA Continuum
OSA Continuum OPTICS-
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审稿时长
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