基于线-圆极化转换原理和聚焦超表面相关理论,设计了一种反射型宽带线-圆极化转换聚焦超表面,并结合线极化馈源设计了宽带的高增益圆极化天线.首先,提出了一种单层的变形十字超表面单元,单元具有极化独立特性,并且能够在10—14 GHz宽频...基于线-圆极化转换原理和聚焦超表面相关理论,设计了一种反射型宽带线-圆极化转换聚焦超表面,并结合线极化馈源设计了宽带的高增益圆极化天线.首先,提出了一种单层的变形十字超表面单元,单元具有极化独立特性,并且能够在10—14 GHz宽频带范围实现对反射波相位360?范围全调控,同时利用该单元构建的一维超单元很好地验证了奇异反射现象.然后,分别控制单元横向和纵向尺寸的分布构建出同时满足线-圆极化转换和聚焦条件的双功能超表面.最后,采用Vivaldi天线作为馈源对超表面进行照射组成天线系统,仿真及测试结果均表明天线系统同时实现了高增益和线-圆极化转换,系统的-1 d B带宽为24%,-3 d B轴比带宽为29.8%.本文的设计充分体现了超表面对电磁波相位和极化操控的灵活性,具有显著的应用前景.展开更多
A new method to design an ultra-thin high-gain circularly-polarized antenna system with high efficiency is proposed based on the geometrical phase gradient metasurface(GPGM).With an accuracy control of the transmiss...A new method to design an ultra-thin high-gain circularly-polarized antenna system with high efficiency is proposed based on the geometrical phase gradient metasurface(GPGM).With an accuracy control of the transmission phase and also the high transmission amplitude,the GPGM is capable of manipulating an electromagnetic wave arbitrarily.A focusing transmission lens working at Ku band is well optimized with the F /D of 0.32.A good focusing effect is demonstrated clearly by theoretical calculation and electromagnetic simulation.For further application,an ultra-thin single-layer transmissive lens antenna based on the proposed focusing metasurface operating at 13 GHz is implemented and launched by an original patch antenna from the perspective of high integration,simple structure,and low cost.Numerical and experimental results coincide well,indicating the advantages of the antenna system,such as a high gain of 17.6 d B,the axis ratio better than 2 d B,a high aperture efficiency of 41%,and also a simple fabrication process based on the convenient print circuit board technology.The good performance of the proposed antenna indicates promising applications in portable communication systems.展开更多
文摘基于线-圆极化转换原理和聚焦超表面相关理论,设计了一种反射型宽带线-圆极化转换聚焦超表面,并结合线极化馈源设计了宽带的高增益圆极化天线.首先,提出了一种单层的变形十字超表面单元,单元具有极化独立特性,并且能够在10—14 GHz宽频带范围实现对反射波相位360?范围全调控,同时利用该单元构建的一维超单元很好地验证了奇异反射现象.然后,分别控制单元横向和纵向尺寸的分布构建出同时满足线-圆极化转换和聚焦条件的双功能超表面.最后,采用Vivaldi天线作为馈源对超表面进行照射组成天线系统,仿真及测试结果均表明天线系统同时实现了高增益和线-圆极化转换,系统的-1 d B带宽为24%,-3 d B轴比带宽为29.8%.本文的设计充分体现了超表面对电磁波相位和极化操控的灵活性,具有显著的应用前景.
基金Project supported by the National Natural Science Foundation of China(Grant No.61372034)
文摘A new method to design an ultra-thin high-gain circularly-polarized antenna system with high efficiency is proposed based on the geometrical phase gradient metasurface(GPGM).With an accuracy control of the transmission phase and also the high transmission amplitude,the GPGM is capable of manipulating an electromagnetic wave arbitrarily.A focusing transmission lens working at Ku band is well optimized with the F /D of 0.32.A good focusing effect is demonstrated clearly by theoretical calculation and electromagnetic simulation.For further application,an ultra-thin single-layer transmissive lens antenna based on the proposed focusing metasurface operating at 13 GHz is implemented and launched by an original patch antenna from the perspective of high integration,simple structure,and low cost.Numerical and experimental results coincide well,indicating the advantages of the antenna system,such as a high gain of 17.6 d B,the axis ratio better than 2 d B,a high aperture efficiency of 41%,and also a simple fabrication process based on the convenient print circuit board technology.The good performance of the proposed antenna indicates promising applications in portable communication systems.
