真空电子技术Issue(1):22-25,32,5.DOI:10.16540/j.cnki.cn11-2485/tn.2024.01.05
基于二维点缺陷可重构光子晶体的毫米波微等离子体源的研究
Research on Millimeter Wave Microplasma Source Based on Two-dimensional Point-defect Reconfigurable Photonic Crystal
摘要
Abstract
According to the theory of photonic crystal with vacancy,a millimeter wave microplasma source based on 2D point-defect reconfigurable photonic crystal array is designed by using HFSS software,and the resonant properties and electromagnetic field distribution of it are studied.The simulation results show that number and radius of dielectric column and lattice spacing have significant influences on S-pa-rameters and electromagnetic field distribution of the millimeter wave microplasma source.When the reso-nant frequency is 76.02 GHz,the S11 valueis-25.11 dB,thequality factor is 400.11,and the maximum electric field strength can reach 2.3×105 V/m.The work provides a reference for research of millimeter wave microplasma source based on 2D point-defect reconfigurable photonic crystal array.关键词
可重构光子晶体阵列/毫米波微等离子体源/谐振器/S参数/电磁场分布Key words
Reconfigurable photonic crystal array/Millimeter wave microplasma source/Resonator/S-parameters/Electromagnetic field distribution分类
电子信息工程引用本文复制引用
陈骏百,廖斌..基于二维点缺陷可重构光子晶体的毫米波微等离子体源的研究[J].真空电子技术,2024,(1):22-25,32,5.基金项目
上海市多维度信息处理重点实验室开放课题基金项目(2020KEY002) (2020KEY002)
