介电GRIN平面透镜设计与实现的新方法

2018 Fifth International Conference on Millimeter-Wave and Terahertz Technologies (MMWaTT) Pub Date : 2018-12-01 DOI:10.1109/MMWATT.2018.8661237

Morteza Sedaghat, V. Nayyeri, M. Soleimani, O. Ramahi

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引用次数: 1

摘要

这项工作提出了设计和实现三维(3D)梯度折射率(GRIN)平面透镜的方法，该透镜由同心环形部分组成(在径向上)。一般来说，GRIN平面透镜的设计需要具有非常特定的定制介电常数的片段，这使得透镜的实现具有挑战性。为了便于透镜的制造，每个部分都被替换为相同厚度的对称三层结构，该结构由夹在两个低介电常数层之间的一层高介电常数材料组成。二氧化硅和硅分别用作低介电常数和高介电常数材料。最后，通过增加层数，得到了具有较好聚焦性能的多层GRIN平面透镜。

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New Approaches to Design and Realization of Dielectric GRIN Flat Lenses

This work presents approaches to design andimplement three-dimensional (3D) graded index (GRIN) flat lenses consisting of concentric annular segments (in the radial direction). Generally, design of GRIN flat lenses calls for segments with very specific tailored permittivity which makes the realization of the lens challenging. To facilitate fabrication of the lens, each segment is replaced with a same-thick symmetric three-layered structure consisting of a layer of high permittivity material which is sandwiched between two low permittivity layers. Silica and silicon are utilized as low and high permittivity materials, respectively. Finally, by increasing the number of layers, a multi-layered GRIN flat lens with an enhanced focusing performance presented.

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来源期刊

2018 Fifth International Conference on Millimeter-Wave and Terahertz Technologies (MMWaTT)

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