而复合介质的电介质张量的计算相当复杂。
It is rather complicated to evaluate the dielectric tensor of composite media.
本论文研究了该领域的两个重要课题:层状电介质复合结构的微波介电特性及铁电特性。
This thesis focused on the microwave dielectric characteristics and ferroelectric characteristics of the layered dielectric complex structures, which were two important issues in this area.
在外磁场作用下,复合介质的法拉第磁光效应依赖于颗粒膜电介质张量。
Under an applied magnetic field, the Faraday magnetic-optical effect of composite media is dependent on the calculation of dielectric tensor.
基于介质圆柱电磁散射理论和等效介质理论,导出了金属柱微粒-电介质复合材料的等效相对介电常数的表达式。
Based on the electromagnetic scattering theory of dielectric wire and effective medium theory, the formula of the effective dielectric constant of metal wire-dielectric composites is derived.
因此,研究与寻找具备高介电常数的电应力控制新型聚合物基复合材料就成为工程电介质物理领域研究的重要课题。
Therefore, to develop the composite with high permittivity, which can control electrical stress, has become an important subject in the field of engineering dielectric physics.
聚合物基纳米复合材料作为电介质和电气绝缘材料在电力电子技术领域有着广泛的应用前景。
Polymer nanocomposites are promising as near-future dielectrics and electrical insulation from the viewpoint of their inherent excellent properties.
研究了金属-电介质颗粒复合体有效非线性响应的温度效应。
The nonlinear optical response in a metal-dielectric composite containing interfacial layers is studied in dilute limit as a function of temperature.
发明了一种新型曲面金属-电介质复合远场超分辨载流管。
Inventing a curving far-field sub-diffraction-limit carrier pipe.
发明了一种新型曲面金属-电介质复合远场超分辨载流管。
Inventing a curving far-field sub-diffraction-limit carrier pipe.
应用推荐