在色散平坦高非线性光子晶体光纤中,进行了基于四波混频效应的波长变换研究。
Wavelength conversion based on four-wave mixing (FWM) has been demonstrated using a 40-m dispersion flattened highly nonlinear photonic crystal fiber (HNL-PCF).
本文应用国产的小芯径高非线性光子晶体光纤基于受激布里渊散射实现了大延迟的慢光。
This paper reports that we realize large delay slow light using our fabricated small core high nonlinear photonic crystal fiber (PCF) based on the stimulated Brillouin scattering.
最后,我们的研究还发现:利用高阶的光孤子,非线性光子晶体波导可以作为高效的脉冲压缩器。
Our studies also reveal that nonlinear PC waveguides can be employed to effectively compress subpicosecond pulses based on the formation of higher-order optical solitons.
本文采用理论分析和数字模拟相结合的方法研究非线性光子晶体波导中光孤子的产生、特性及其应用。
We investigate the generation, properties and applications of optical solitons in nonlinear photonic crystal (PC) waveguides by theoretical analysis and numerical simulation.
基于光子晶体中色散和非线性现象的研究使光器件的小型化成为可能,这对将来实现各种光器件的制作和集成具有重要的意义。
There is an important meaning that studying the dispersive and nonlinear phenomena of photonic crystals for the fabrication and integration of optical apparatuses.
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.
研究了强非线性色散位移光纤和光子晶体光纤中的光纤参量放大增益特性。
The characteristic of fiber-optic parametric amplification in the highly nonlinear dispersion-shifted fiber and photonic crystal fiber were researched in detail.
研究同时具有二阶和三阶非线性效应的一维浅栅光子晶体中的矢量耦合模孤子动力学。
The dynamics of vectorial coupled-mode solitons in one-dimensional shallow grating photonic crystals with quadratic and cubic nonlinearities is discussed.
基于耦合非线性薛定谔方程,通过数值模拟,研究了光子晶体光纤中孤子脉冲的输入功率对脉冲传输的影响。
Based on the nonlinear Schr? Dinger coupling equation, the impact of input power of soliton in the Photonic crystal fibers on the pulse evolution is studied by numerical simulation.
最后,我们利用耦合模理论和有限时域差分技术研究了非线性缺陷对构成的光子晶体分子的单向导通行为。
Finally, we investigate the unidirectional transmission behavior of PC molecules consisting of nonlinear defect pairs by use of the coupled mode theory and the finite-difference time-domain technique.
基于耦合非线性薛定谔方程,通过数值模拟,研究了光子晶体光纤中高阶色散对脉冲俘获的影响。
Based on the nonlinear Schr? Dinger coupling equation, the impact of higher order dispersion in the photonic crystal fibers on the pulse trapping is studied by numerical simulation.
然后,通过时域有限差分技术模拟了非线性的光子晶体的双稳行为。
Then, the bistable behaviors of nonlinear PC defects are simulated by use of the finite-difference time-domain technique.
采用相位掩模版法实验研究了高非线性掺锗光子晶体光纤中布拉格光栅的制作。
Fabrication of the Bragg grating in a highly nonlinear photonic crystal fiber was investigated experimentally by phase mask method.
采用平面波展开法,研究了气孔尺寸对光子晶体光纤色散特性和非线性的影响。
The effect of hole size on nonlinearity and dispersion of the photonic crystal fiber(PCF) is analyzed by the plane wave expansion method.
本论文研究了二维光子晶体中的色散和非线性现象。
In this paper, we study the dispersive and nonlinear phenomena of 2d photonic crystals.
光子晶体光纤(PCF)与普通光纤相比有着优秀的单模特性、色散特性和非线性特性。
Photonic crystal fiber (PCF) has more excellent properties than common fiber, such as single mode, dispersion and nonlinearity.
基于耦合非线性薛定谔方程,通过数值模拟,研究了光子晶体光纤中高阶色散对脉冲俘获的影响。
Based on the nonlinear Schrodinger coupling equation, the impact of higher order dispersion in the photonic crystal fibers on the pulse trapping is studied by numerical simulation.
光子晶体光纤的奇异特性包括无休止单模特性、大模面积特性、可调的色散特性、高双折射特性和非线性特性。
The excellent properties of photonic crystal fiber include the endless single mode, large mode area, adjustable dispersion property, high birefringence and nonlinear.
本文概述了光子晶体光纤的三个突出的优点:单模传输特性、高非线性效应和可控群速度色散特性。
We introduce three unique properties of PCF which are endlessly single mode, controllable dispersion and high nonlinearity.
从光子晶体的传输矩阵理论出发,推导了掺杂饱和吸收非线性介质的光子晶体的缺陷模的透射率,以及缺陷层中局域光的增强因子。
The transmittance of defect mode in one dimension photonic crystals with nonlinear absorptional dielectric materials was deduced by the transfer matrix theory.
概述了光子晶体光纤的三个突出优点:单模传输特性、高非线性效应和可控色散特性。
PCF has three outstanding advantages: single-mode transmission characteristics, the highly nonlinear dispersion effects, and controllable dispersive properties.
概述了光子晶体光纤的三个突出优点:单模传输特性、高非线性效应和可控色散特性。
PCF has three outstanding advantages: single-mode transmission characteristics, the highly nonlinear dispersion effects, and controllable dispersive properties.
应用推荐