1.
Absolute Photonic Band Gap of a Two-Dimensional Triangular-Lattice Photonic Crystal Consisting of Dielectric Rods
二维三角晶格介质柱光子晶体的完全光子禁带
2.
Study of Complete Bandgap and Defect Characteristics of Two Dimensional Photonic Crystals;
二维光子晶体的完全禁带及缺陷特性研究
3.
Absolute Bandgaps of Photonic Crystal in FCC Opposite Phase Close Structure Calculated by Plane-Wave Expansion Method
平面波展开法计算FCC反相密堆积结构光子晶体的完全禁带
4.
A FDTD method for calculating defect modes in a two dimensional photonic crystalconsisting of anisotropic cylinders
二维正方晶格各向异性光子晶体完全禁带中缺陷模的计算和分析
5.
The effect of nonlinear exposure on bandgap of three-dimensional holographic photonic crystal
非线性曝光对三维全息光子晶体禁带特性的影响
6.
Study of Band Gap Broadening Method and Waveguide Transmission Property of Photonic Crystal Formed by Holographic Lithography
全息光子晶体禁带展宽方法和波导传输特性的研究
7.
Study on the Band Gap Structure for Time-varying Unmagnetized Plasma Photonic Crystals
时变非磁化等离子光子晶体禁带特性
8.
Widening of PBG in 1D Photonic Crystal and Design of Filter;
一维光子晶体禁带扩宽及滤波器设计
9.
Research of band gap of two-dimensional photonic crystal with square rods
二维正方柱结构光子晶体禁带的研究
10.
Implementation of complete two-dimensional bandgap in photonic crystals of square Bravais lattice using complex unit cell
利用复式晶胞实现二维正方形布拉菲格子光子晶体的完全带隙
11.
Study of Optical Characteristics of Forbidden Band and Defect Modes in One-dimensional Photonic Crystal;
一维光子晶体禁带及缺陷模光学特性的研究
12.
As earth enters the photon belt in full, time will cease, and all shall enter an ongoing state of timelessness.
当地球完全进入光子带,则时间将停止,万物进入无时间的永恒状态。
13.
The Forbidden Band Gap of Time-varying Magnetized Plasma Photonic Crystals
时变磁化等离子体光子晶体的禁带特性
14.
The methods of bandwidth increasment and the problems of one-dimensional photonic crystal omnidirectionsl reflector are discussed.
讨 论了增加禁带宽度的方法及一维光子晶体全角度反射镜中存在的问题。
15.
Passive Electromagnetic Shielding by Using Characteristics of Forbidden Band of Photonic Crystals
利用光子晶体的禁带特性实现无源电磁屏蔽
16.
Research on bandgap characteristics of all solid square-lattice photonic bandgap fiber
四方格子全固光子带隙光纤带隙特性研究
17.
In the band structure, one band that is completely filled with electrons is termed valence band.
在能带结构中,完全填满电子的带被称为价带。
18.
It is shown that the propagation of charged-particle beam can be made in complete analogy with the transmission of ellipse-Gaussian light beam in paraxial approximation.
傍轴近似下带电粒子束传输可完全类比于近轴光线椭圆高斯光束的传输。