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photonic lattice
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  光子晶体
     PhlatLight~(TM) Photonic Lattice LEDs for RPTV Light Engines
     用于背投电视光学引擎光源的PhlatLight~(TM)光子晶体LED
短句来源
     PhlatLightTM LED chipsets for projection applications enable microdisplay based RPTVs with screen sizes of 60" and more. PhlatLightTM chipsets are based on Photonic Lattice technology. Their unique design and emission characteristics is optimized for coupling light into small etendue light engines, and allows for very high system efficiency.
     在投影应用中,采用PhlatLightTM的LED使得基于微显技术的背投电视实现60in或更大屏幕显示成为可能。 PhlatLightTM基于光子晶体技术,其独特的设计优化了LED器件的发光特性,使得光能量能够耦合到光学扩展量较小的光学引擎中,以得到很高的光能量利用率。
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  “photonic lattice”译为未确定词的双语例句
     A new class of stable composite soliton in two-dimensional photonic lattice
     一类两维光学格子中稳定的复合孤子
短句来源
     First, the basic photonic crystal structures were designed including square photonic lattice and triangle photonic lattice, and introducing the different defects to form terahertz broad band filter, super-narrow band filter, cavity and waveguide and so on.
     首先从光子晶体的基本结构出发,包括正方晶体结构,三角品格结构等,以及在各种结构中引入缺陷,包括点缺陷和线缺陷等,形成太赫兹波段的宽带滤波器,超窄带滤波器以及波导等器件。
短句来源
     The potential application of the photonic lattice is discussed. 
     本文也讨论了这种光子晶体的潜在应用。
短句来源
  相似匹配句对
     Experimental study of photonic crystal square lattice
     方形光子晶体的实验研究
短句来源
     The potential application of the photonic lattice is discussed. 
     本文也讨论了这种光子晶体的潜在应用。
短句来源
     The Upgrade Lattice
     提升格
短句来源
     Photonic Crystals
     光子晶体
短句来源
     The Knowledge Lattice
     知识格
短句来源
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  photonic lattice
Using a Ti:sapphire oscillator as a pump source, we observe for the first time impressive supercontinuum generation in the guided modes of a 2D photonic lattice.
      
This two-dimensional periodic photonic lattice allows for strong confinement of light without employing defect states nor using photonic bandgap guiding.
      
When such a photonic lattice is also nonlinear, propagation dynamics can be further modified.
      
The strength of the perturbation to the photonic lattice produces an additional SA mode as well.
      
The array of solitons induces an array of waveguides, which serves as a nonlinear photonic lattice for other beams.
      
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The plane wave method is developed for calculating photonic band structure in chiral medium, at this basis, the photonic band structure of simple cubic lattice made of chiral medium is calculated. Results show that cutoff frequencies below which there are no propagating modes appear in both of two kinds scc lattices which are the array of “chiral spherical atoms” in dielectric material and the array of “dielectric spherical atoms” in chiral matrix. There is a cutoff grequency below which there are no propagating...

The plane wave method is developed for calculating photonic band structure in chiral medium, at this basis, the photonic band structure of simple cubic lattice made of chiral medium is calculated. Results show that cutoff frequencies below which there are no propagating modes appear in both of two kinds scc lattices which are the array of “chiral spherical atoms” in dielectric material and the array of “dielectric spherical atoms” in chiral matrix. There is a cutoff grequency below which there are no propagating modes. The potential application of the photonic lattice is discussed.

发展了适于计算由手征材料组成的光子晶体的光子带结构的平面波法。在此基础上,研究了由手征材料组成的简立方光子晶体的光子带结构。计算表明:手征材料“球形原子”在电介质中排列所组成的简立方光子晶体和电介质“球形原子”在手征材料中排列所组成的简立方光子晶体,不仅都存在光子带隙,而且存在截止频率,在该频率以下的区域无传播模存在。本文也讨论了这种光子晶体的潜在应用。

At the turn of the century, fundamental research on the interaction of photon with materials is still an important subject for photonics development. The following frontal problems should be noted:(1)New physical effects under the action of intense light;(2)New effects of quantum optics ultraslow light speed and giant optical nonlinearity;(3)Photonic microstructures and photonic lattices;(4)The effect of photons on living bodies.

在跨世纪时期 ,光子与物质相互作用的基础研究仍然是光子学发展的重要课题 .如下的若干前沿问题值得重视 :(1)强光作用下的物理新效应 ;(2 )量子光学新效应———极度减慢光速与巨光学非线性 ;(3)光子学微结构与光子晶体 ;(4)光子与生命体的作用效应 .

TLM method is a powerful and flexible tool for numerical analysis of wave propagation in time domain simulations. After its principle is reviewed, TLM is used to analyse a one dimensional photonic lattice constructed from two materials with different values of dielectric constant under the consideration of photonic band gap, the value of dielectric constant and the filling fraction. The localized state is also studied by the introduction of defect in our multilayer structure.

传输线矩阵 ( TLM)方法是一种强有力的时间 -空间域内电磁场数值仿真算法。本文在简单介绍 TLM方法的原理后 ,首次用此方法对由两种介电常数不同的材料构成的周期性复层一维光子晶体结构进行了分析。数值模拟结果表明 ,TLM是分析光子晶体传输特性的有效算法 ;在可见光波段范围内 ,光子带隙确实存在 ,且受电介质材料、空气部分大小等各因素的影响。本文还讨论了在一维结构中引入缺陷时的局域态

 
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