基于二维光子晶体薄膜板的天线补偿材料及结构设计-《郑州大学学报(工学版)》

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Title:: Antenna compensation material and structure design based on two-dimensional photonic crystal thin film panel

作者:: 李彬; 李桂仁; 周锡增; 等.; 北京邮电大学光通信与光波技术教育部重点实验室,北京,100876, 亚东技术学院通讯工程系,台湾省台北县板桥市四川路二段58号,台湾,22061, 元智大学通讯研究中心,台湾省桃同县中坜市远东路135号,台湾,3200B

摘要:: 根据二维光子晶体的周期性结构对于移动通信中的天线信号进行补偿,对电磁波而言,在介电质中传播,所遇介电常数反差如同电子在晶体中的周期性位势.基于电子柬微影法通过光阻进行基板刻蚀技术经曝光显影后所制成的金属氧化物补偿材料压制成薄膜结构,利用二维光子晶体所形成的周期性排列结构,制作薄膜材料.对射频电渡进行滤波.在介质层表面的电场分布可以通过边界条件求得,对材料表面的TE波及TM渡分别进行分析.通过常用材料及成熟的制造技术实现传统的光学晶体补偿结构,减少天线在不同方向上所形成的偏差,并增强相应的极化透射强度.

Abstract:: According to the periodic structure of the two-dimensional photonic crystal, the antenna signal in mobile communication is compensated, and for the electromagnetic wave, the dielectric constant contrast is like the periodic potential of electrons in the crystal. Based on the electronic micrography, the metal oxide compensation material made by substrate etching technology through photoresist is pressed into a thin film structure, and the periodic arrangement structure formed by two-dimensional photonic crystals is used to make thin film materials. Filter the RF ferry. The electric field distribution on the surface of the dielectric layer can be obtained by the boundary conditions, and the TE wave and TM crossing of the material surface are analyzed separately. The traditional optical crystal compensation structure is realized through common materials and mature manufacturing technology, which reduces the deviation formed by the antenna in different directions and enhances the corresponding polarization transmission intensity.