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-transmission-line-method
- 根据透射反射曲线求解超材料介电常数 磁导率 阻抗 折射率-calculating the permittivity、permeability、impedance andrefraction indice of metamaterial based on transmission and reflectance coefficient.
NRW
- 编程实现以NRW算法通过S参数提取超材料结构的等效介电常数和等效磁导率-Programming in NRW algorithm to extract the effective permittivity and effective permeability metamaterial structure is obtained by S parameter
models.woptics
- comsol仿真建立一个空间变化的电介质分布, 如可能与超材料被工程。这里,凸透镜形状被定义 通过矩形域的已知变形。电介质分布定义 在未变形的,原始的矩形域和被映射到变形 塑造镜头。虽然这里所限定的透镜的形状是凸的,该介电 分布使入射光束发散。-comsol demonstrates how to set up a spatially varying dielectric distribution, such as might be engineered with a m
Metamaterial-Antenna-Project
- EDA project shows how metamaterials can boost the performance of antenna transmission -EDA project shows how metamaterials can boost the performance of antenna transmission ...
超常介质非线性光学研究进展
- 光与超常介质相互作用时,光的磁场也变得很重要 。超常介质的色散磁导率导致光与超常介质的非线性相 互作用呈现出许多新特性。总结了超常介质中二阶非线性光学现象的国内外研究进展。(As the light interacts with the metamaterial, the magnetic field of light becomes important. The dispersive magnetic permeability of metamaterials leads to the non
Metamaterial
- local and nonlocal model for wire medium structures
retrieve
- 用于仿真得到超材料的S参数后,利用S参数矩阵提取等效介电常数和磁导率(fter simulating the S-parameters of the metamaterial, the equivalent dielectric constant and permeability are extracted using the S-parameter matrix.)
NormalizingApp-master
- WPF使用MaterailDesign与Mvvm模式实现与西门S7-200通讯,监控仪器数据。(WPF uses materaldesign and MVVM mode to realize communication with S7-200 of Ximen and monitor instrument data.)
EMPE
- 输入S参数的相位和幅度,可以提取超材料的电磁参数(extraction of the effective parameters of metamaterial)
等效介质理论参数提取代码
- 矢量网络法散将射参数转化为介电常数 本代码计算需要的输入值为:d(超材料厚度方向的周期常数),f(频率的变化范围),S(通过CST或HFSS软件计算得到的散射参数)(The vector network dispersion transforms the radiation parameters into the dielectric constant Input values required for calculation in this code are: D (periodic co