Both terahertz(THz) electromagnetic wave and metamaterials are hot topics in electromagnetics research.
太赫兹波和电磁超介质是电磁学领域关注的热点。
参考来源 - 太赫兹波段电磁超介质的应用及研究进展The conditions for occurring Two-Photon Absorption and Stimulated Raman Scattering in nonlinear metamaterials are also discussed.
数值计算了双光子吸收过程和受激拉曼散射过程两束光的能量变化过程及其空间分布,以此为基础,讨论在电磁超材料中产生这两个三阶非线性效应的条件。
参考来源 - 电磁超材料非线性特性理论研究When light field interacts with metamaterials,both the electric field and the magnetic field must be considered.
光与超常介质相互作用时,光的磁场也变得很重要。
参考来源 - 超常介质非线性光学研究进展Metamaterials including double-negative materials (DNM) and single-negative materials (SNM) are typically man-made and have properties that are not found in nature.
包括双负材料和单负材料的特异材料主要是指由人工制备的材料,其有着在自然界中不存在的独特性质。
参考来源 - 特异材料中单负材料和双负材料的传输特性及应用的研究According to the theoretical work, the applications of metamaterials to photonic crystals, microwave circuits and antenna have been investigated and some novel microwave components have been obtained. The original work and valuable results of this dissertation are as follows:1.
本文深入地研究了超常介质的工作机理及其等效媒质参数,并在此基础上,对超常介质在光子晶体、微波电路以及天线中的应用进行了有意义的探索,得到了一系列新型的微波器件。
参考来源 - 超常介质的电磁特性及其应用研究After many years of study and research, it is found that the application of metamaterials can efficiently reduce the size of microstrip patch antennas.
经各国学者多年的研究和探索,将电磁超介质应用于微带贴片天线上,能有效地减小天线尺寸。
参考来源 - 基于金属环形结构的Metamaterial在微带天线上的研究·2,447,543篇论文数据,部分数据来源于NoteExpress
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