结合负折射介质的特性,详细研究了该啁啾暗孤波的形成条件和传输特性。
Based on the characteristics of nonlinear negative index materials, we investigate the formation conditions and transmission characteristics of the chirped dark solitary wave in detail.
回顾了负折射介质的研究历史,综述了光子晶体负折射效应的物理机制、研究进展以及目前的主要研究方向,展望了光子晶体负折射效应的应用前景。
The history and mechanism of negative refractive effects of photonic crystals are reviewed. The research progress and status are discussed. Finally, the application foreground is forecasted.
提出并优化了由单排渐变介质波导构成的二维空气孔型光子晶体负折射平板透镜表面的减反层,改善了成像质量。
We propose and optimize the antireflection coating composed of a row of tapered dielectric waveguides for two-dimensional air hole-type photonic crystal negative refraction slab lens.
其独特的本构参数给予了这种介质独特的电磁特性,比如负折射、逆多普勒效应、逆(?)
Such distinct constitutive parameters have brought the medium several quite unique electromagnetic properties, such as negative refraction, reversed Doppler effect, reversed Cerenkov radiation, etc.
首次对负折射手征介质的表面波模式进行了研究。
Study is given for the surface polaritons related to a chiral medium which supports negative refraction for the first time.
推理分析了左手性介质透镜处球形界面的负折射规律,并依此表明了常用光学公式仍适用于左手性介质。
Analytic calculation of the negative refraction at the spherical surface is conducted demonstrating that the usual optical formulas still hold true for the LHM lens.
负折射手征介质平板的表面波能流可以向前或者向后,甚至可以停止。
The net energy flux of the guided waves related to these surface polaritons may be forward, backward or even be stopped.
利用时间平均的坡印亭矢量,给出了在晶体和介质界面发生负折射的条件,与晶体物理学中的分析结果一致。
The time-averaged Poynting vector gives the conditions for negative refraction that occurs at the interface, which are consistent with the analysis in crystal physics.
提出了用正、负折射率介质层交替排列构成的一维光子晶体模型,并且用传输矩阵法计算了该模型的透射谱,从理论上分析了其带隙结构。
Plane wave expansion techniques and transfer matrix method are used to study the two-dimensional photonic crystal with a triangular lattice of dielectric cylinders in air.
提出了用正、负折射率介质层交替排列构成的一维光子晶体模型,并且用传输矩阵法计算了该模型的透射谱,从理论上分析了其带隙结构。
Plane wave expansion techniques and transfer matrix method are used to study the two-dimensional photonic crystal with a triangular lattice of dielectric cylinders in air.
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