| 1. | Negative refraction can also occur in some special photonic crystals
负折射介质的应用将特别有利于器件集成度的提高。 |
| 2. | The odd property on which dr hess ' s plan rests is called negative refraction
赫斯博士的计划依赖的奇异特性叫做“负折射” 。 |
| 3. | Transmission characteristics of electromagnetic wave at the interface of positive and negative refraction index media
电磁波在正负折射率介质界面上的传输特性 |
| 4. | To understand how negative refraction can arise , one must know how materials affect electromagnetic waves
要了解负折射如何发生,我们必须先知道材料如何影响电磁波。 |
| 5. | Recently , much attention has been attracted by the negative refraction in the so - called left - handed media ( lhm )
负折射效应是光子晶体研究领域的最新研究热点。不少负折射介质可以认为是另一类周期性结构。 |
| 6. | In this thesis , the negative refraction , superprism and self - collimated phenomena are analyzed by using this method
在这个基础上,本文对光子晶体中的负折射效应、超棱镜效应以及自准直效应进行了一定的分析。 |
| 7. | The negative refraction and superprism in photonic crystals are promising for the near field image and wavelength demultiplexing system
光子晶体中的负折射、超棱镜效应在近场成像、波分复用系统中具有潜在的用途。 |
| 8. | They carried out an experiment with a thin wedge of gold and visible light to demonstrate similar results with no negative refraction
他们以薄的楔形黄金和可见光进行了一项实验,示?在不是负折射的情况下也可以产生类似的结果。 |
| 9. | In conclusion , the work in the present thesis is devoted to developing new numerical methods , designing new structures with large absolute bandgap and studying the negative refraction for photonic crystals . much progress has been obtained in each of the above - mentioned aspects
总之,本论文工作涉及光子晶体新理论算法、光子晶体新结构的设计以及光子晶体在负折射方面的崭新应用,在各个方面都取得了有特色的研究成果。 |
| 10. | In 6 . 635 , topics covered include : special relativity , electrodynamics of moving media , waves in dispersive media , microstrip integrated circuits , quantum optics , remote sensing , radiative transfer theory , scattering by rough surfaces , effective permittivities , random media , green ' s functions for planarly layered media , integral equations in electromagnetics , method of moments , time domain method of moments , em waves in periodic structures : photonic crystals and negative refraction
本课程所覆盖的论题包括:狭义相对论、运动媒质的电动力学、色散媒质中的波、微带集成电路、量子光学、遥感、辐射传输理论、粗糙表面上的散射、有效介电系数、随机媒质、平面层状媒质的格林函数、电磁学中的积分方程、矩量法、时域矩量法、周期结构中的电磁波:光子晶体和负折射率。 |
