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利用不同厚度的亚波长介质块实现0 ~2π的相位变化,并基于惠更斯人工电磁表面原理设计了工作
于28 GHz 通信频段的全介质电磁透镜,该电磁透镜的焦距与口径比(F / D)为0. 15。通过3D 打印制备该电磁透镜,
并将其与基片集成波导(SIW)贴片天线进行集成,构造了超低剖面的宽带透镜天线。全波分析与实验测量结果显示
该电磁透镜能够将原SIW 贴片天线的增益提高7 dB 左右,而将3 dB 波束宽度减小到10°左右,同时该透镜天线系统
还具有良好的低副瓣。 相似文献
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In this work,we propose an all-dielectric frequency selective surface(FSS) composed of periodically placed highpermittivity dielectric resonators and a three-dimensional(3D) printed supporter.Mie resonances in the dielectric resonators offer strong electric and magnetic dipoles,quadrupoles,and higher order terms.The re-radiated electric and magnetic fields by these multipoles interact with the incident fields,which leads to total reflection or total transmission in some special frequency bands.The measured results of the fabricated FSS demonstrate a stopband fractional bandwidth(FBW)of 22.2%,which is consistent with the simulated result. 相似文献
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