文章主要研究光在一维光子晶体中的传输特性。
This article mainly studies on the optical transmission of one-dimensional photonic crystals.
研究了异质结构一维光子晶体全向反射镜的设计方法。
An omnidirectional reflector based on 1d photonic crystal of heterostructures is introduced.
可见光波段一维光子晶体及其含缺陷结构设计采用传输矩阵法。
Using transfer matrix method, this paper designed theoretically the multilayer 1D PC and the structure with defect layer.
利用通过一维光子晶体复透射系数可定义光子晶体的等效折射率。
The effective refractive index can be defined by using the complex transmission coefficient.
结果表明,对于一维光子晶体,在第一能带内,存在反常折射现象。
It shows that, for the one-dimensional photonic crystals, there are abnormal refraction in the first band.
利用传输矩阵方法研究了含负折射率缺陷的一维光子晶体的透射谱。
The transmission through one-dimensional photonic crystal with negative refractive index defects was studied by using transfer matrix method.
利用薄膜一维光子晶体超晶格的概念,设计了两种薄膜多峰滤光片。
The design method is based on concept of thin-film photonic crystal super-lattice.
利用转移矩阵方法研究了含双负缺陷的一维光子晶体耦合腔的透射谱。
The transmission through one-dimensional photonic crystal coupled-resonator containing defect layers with negative refractive index is studied by using transfer matrix method.
设计了新型的光开关器件,该器件建立在掺杂电光材料的一维光子晶体上。
The switch bases on one-dimensional photonic crystal doped by electro-optical material.
在第二章中,主要介绍了含负折射率材料的一维光子晶体的理论研究方法。
In chapter 2, the theoretical research methods of one dimensional photonic crystal containing negative refraction material are introduced.
利用转移矩阵法,研究了含负折射率材料的一维光子晶体掺杂后的滤波性质。
The filtering properties of doped one-dimensional photonic crystal containing negative refractive index material are studied by using transfer matrix method.
而利用较新的一维光子晶体技术设计全角度的红外反射膜则是一条新的思路。
It is also a new thinking to design an full-dimensional high-reflective coating by means of one dimensional photonic crystal technology.
为了得到一维光子晶体新的滤波特性,并把这种特性应用到滤波器的设计中。
The filtering characteristics of photonic crystals with symmetrical structure and asymmetrical structure have been calculated and discussed by using transfer matrix method.
该文提出了一种利用转移矩阵来计算一维光子晶体的光子禁带结构的新方法。
The photonic crystal fiber(PCF) with a special envelop structure induces the light by photonic bandgap(PBG) effect.
将光纤布拉格光栅近似为一维光子晶体,研究光栅的能带结构和光学传输特性。
The band structure and the transmission properties of the fiber Bragg grating are investigated in the scope of the photonic crystal.
利用这个转移矩阵,推导出了由左右手材料交替构成的一维光子晶体的色散关系。
Using the transfer matrix, this paper also derived the dispersion relation of the one-dimensional photonic crystal composed of alternative left-handed and right-handed materials.
利用传输矩阵方法研究了多个周期性分布的负折射率缺陷的一维光子晶体的透射谱。
The transmission through one-dimensional photonic crystals with a number of negative refractive index structural defects are studied by using transfer-matrix-method.
利用光子晶体的完全色散关系,研究了一维光子晶体中折射角与入射角之间的关系。
The relationship between refracting Angle and incident Angle in the one-dimensional photonic crystals was studied by means of complete dispersion relation.
利用光学传输矩阵方法,模拟计算了由铁磁材料组成的一维光子晶体的光学传输特性。
The optical transmission properties of one-dimensional photonic crystals composed of ferromagnetic materials are calculated with transfer matrix methods.
利用电磁场理论,推导发现了压力与一维光子晶体光带隙边界之间存在线性对应关系。
For one-dimensional Photonic Crystals, an analytic expression for the band edges as a linear function of the pressure is given using electromagnetic theory.
提出了折射率分别递增或递减的准周期结构一维光子晶体,研究了其带隙结构和偏振特性。
The band gap and polarization properties in quasi-periodic 1d photonic crystal with refraction index gradually increasing or decreasing was studied.
利用转移矩阵法分析具有线性和非线性缺陷层的一维光子晶体的传递函数并进行了数值模拟。
The transfer characteristics of one-dimensional photonic crystal with linear and nonlinear defect layers are analyzed and simulated with a transfer matrix.
介绍了时域有限差分法的基本原理,并对一维光子晶体薄膜中传播的电磁场作了模拟和分析。
The principle of finite difference time domain (FDTD) was presented, and analysis of electromagnetic field in 1D photonics crystal(PC) was performed.
用特征矩阵法研究了带缺陷的一维光子晶体的透射性质,并提出了新的可调谐光滤波器的概念。
The transmission properties of the one-dimensional photonic crystals with defects were studied using the eigen matrix method, and a new kind of tunable optical filter is proposed in this paper.
本论文就是针对一维光子晶体传光特性及其对掺铒光纤放大器增益平坦改善的应用展开的研究。
In this paper, researches based on one-dimensional photonic crystals and the application on flattening improvement about Erbium-Doped Fiber Amplifier (EDFA).
通过研究带缺陷的一维光子晶体受压力后光带隙性能的变化,提出了改进型光子晶体压力传感器的理论模型。
The photonic band gap (PBG) property of a one-dimensional photonic crystal with a defect layer under pressure is studied, accordingly an improved model of pressure sensor is described.
利用光学特征矩阵方法推导出了任意结构一维光子晶体的反射率、透射率公式,阐述了完全光子禁带的概念。
It is derived that reflectivity and transmission of random-structure 1d photonic crystal by the method of characteristic matrix, and explains the concept of full photonic bandgap.
本论文从一维光子晶体的结构特点出发,着重研究了有限周期一维光子晶体的光子禁带及缺陷模的光学特性。
The thesis begins with the structure features and mainly discusses the optical characteristics of photonic forbidden band and defect mode in finite-period 1d photonic crystals.
论述了根据角域叠加原理,在石英玻璃基板上用全介质膜系实现了紫外区域全角度一维光子晶体反射镜的设计。
According to the incident Angle domain, the design of an ultraviolet omnidirectional reflector deposited on substrate of quartz glass is briefly presented.
论述了根据角域叠加原理,在石英玻璃基板上用全介质膜系实现了紫外区域全角度一维光子晶体反射镜的设计。
According to the incident Angle domain, the design of an ultraviolet omnidirectional reflector deposited on substrate of quartz glass is briefly presented.
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