而这也是光子晶体所能做到的。
光子晶体光纤有一些独特的性能。
首先研究了一维微波光子晶体传输线。
First one-dimensional PBG microwave transmission line is studied.
说明了相对带宽对光子晶体设计的重要性。
The importance of relative bandwidth to the design of photonic crystal is described.
从一个方面说明了光子晶体光纤的潜在应用。
The potential application of PCF are demonstrated on one aspect.
从一个方面说明了光子晶体光纤的潜在应用。
The potential applications of PCF are demonstrated on one aspect.
光子晶体是一种具有光子带隙的新型功能材料。
Photonic crystals are a new kind of materials with photonic band gap.
在本论文中我们研究光子晶体中的量子光学现象。
In this dissertation we study the quantum optical phenomena in photonic crystals.
光子晶体光纤的传输特性完全由其横向结构决定。
The propagation characteristics of PCF are wholly determined by its transversal structure.
这些结果为光子晶体光纤的设计和制造提供了理论依据。
These results provide the theoretical base for the design and production of the Photonic Crystal Fiber.
由于缺陷的存在,使得光子晶体的透射谱中产生缺陷峰。
Because of the defect, the defect peak appears in the transmission spectra.
研究了光子晶体多模波导在非光子带隙区光场的传输特性。
The properties of the propagating field in multimode photonic crystal waveguides (PCWs) exhibiting no photonic band gaps (PBGs) are investigated.
本论文研究了光子晶体禁带与单个周期单元散射特性的关系。
The paper mainly researches the relationship between photonic band gap and scattering characters of single period.
另外,光子晶体也可以作为光子的导体制作各种各样的光器件。
Additional, photonic crystals can be used as the conductor of photon to produce various optical devices.
最后讨论了大空气孔光子晶体光纤的特性及其在色散补偿中的应用。
Finally, PCF with large air holes and its applications in dispersion compensation were also discussed.
能流和态密度的计算结果都表示十二重准晶光子晶体具有光子带隙。
The simulation of total energy flow and the density of states show that the dodecagonal QPC has photonic gap for TM polarized electromagnetic waves.
由于光子晶体是人造晶体,因此设计和制造光子晶体就成了研究的焦点。
Because photonic crystals are artificial crystals, it is our studying issue to design and fabricate the photonic crystals.
在光子晶体中,其成分与光的波长是同样的大小——几百纳米(一米的十亿分之一)。
In a photonic crystal the elements are about the same size as the wavelength of light-a few hundred nanometres (billionths of a metre).
光子晶体可以用来制备全新原理、高性能的光学器件,具有广阔的应用前景。
The photonic band gap materials have wide potential applications in fabricating new type of optical devices.
利用光学传输矩阵方法研究对称和非对称一维缺陷光子晶体的缺陷模式特性。
The mode properties of symmetric and non-symmetric one-dimensional photonic crystals with a sandwich layer defect were investigated by using the optical transmission matrix method.
引入复折射率并利用特征矩阵法,研究了光子晶体的吸收对光子晶体能带的影响。
Leading into the complex refractive index and making use of the characteristic matrix method, the photonic bandgap of photonic crystal with the variety of the absorb is studied.
利用平面波展开方法与超原胞方法研究了两种不同晶格的光子晶体异质结的界面态。
We have investigated the guide modes in two kinds of two_dimensional photonic crystal heterostructures by using the plane wave expansion method combined with the supercell technique.
数值模拟和分析表明,该光子晶体光纤在色散补偿型光纤方面具有广泛的应用前景。
The numerical simulation and analysis show that this type of PCF will find extensive applications in dispersion compensation fibers.
研究表明:类矩形芯光子晶体光纤的模式双折射比普通椭圆保偏光纤至少高一个数量级。
The numerical results show that the modal birefringence of near_rectangle core PCF is at least one order of magnitude higher than the conventional elliptical polarization_maintaining fibers (PMFs).
简述了光子晶体的基本概念和主要特征,重点阐述了光子晶体的制备方法及其潜在应用。
The basic conception and main characters of photonic crystals are introduced in brief, and the fabrication and its potential applications are described in detail.
本文主要研究了光子晶体中的点缺陷和线缺陷,以及由缺陷构成的光子晶体波导和分频器。
The purpose of this paper is to study the dot defect and line defect in photonic crystal, waveguide and demultiplexer.
光子晶体作为一种新型人工结构功能材料,基于光子禁带的高反射特性可以实现热红外伪装。
As a new kind of man-made structure function material, photonic crystals could realize thermal infrared camouflage because of its high-reflection photon forbidden band.
为了实现光子晶体的多通道滤波,对设计出的一维掺杂光子晶体进行了数值计算和理论分析。
In order to implement the multi-channel filtering of the photonic crystal, the numerical calculation and theoretical analysis for the one-dimensional photonic crystal were performed.
为了实现光子晶体的多通道滤波,对设计出的一维掺杂光子晶体进行了数值计算和理论分析。
In order to implement the multi-channel filtering of the photonic crystal, the numerical calculation and theoretical analysis for the one-dimensional photonic crystal were performed.
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