1) photonic crystal fiber
光子晶体光纤
1.
Numerical study on a femtosecond laser pulse in photonic crystal fiber;
光子晶体光纤中飞秒激光脉冲传输的研究
2.
Dispersion calculation of photonic crystal fibers by the normalization technique;
光子晶体光纤色散的无量纲化计算方法
3.
Research and design of photonic crystal fibers with closing-zero flattened dispersion and high nonlinear;
近零平坦色散高非线性光子晶体光纤的研究和设计
2) photonic crystal fibers
光子晶体光纤
1.
Characteristic analysis of photonic crystal fibers based on FEM;
基于有限元方法的光子晶体光纤特性分析
2.
Design of dispersion compensating photonic crystal fibers;
色散补偿光子晶体光纤的设计
3.
Study on relationship of supercontinuum spectral width and wavelength in photonic crystal fibers;
光子晶体光纤中超连续谱宽与波长关系的研究
3) photonic crystal fiber(PCF)
光子晶体光纤
1.
A numerical analysis model of Rayleigh scattering loss in photonic crystal fiber(PCF) is presented based on the full-vector finite element method(FEM).
基于全矢量有限元方法,建立了光子晶体光纤瑞利散射损耗的数值分析模型,并分析了该模型对与制作工艺相关的瑞利散射系数、与结构相关的空气孔间距及空气孔直径等参量对空气孔正六边形排列光子晶体光纤瑞利散射损耗特性的影响。
2.
The mode cutoff,confinement loss,modal radius,and numerical aperture of photonic crystal fiber(PCF) with high birefringence were analyzed by using full-vector finite difference frequency domain(FDFD) method.
应用全矢量频域有限差分法,分析了所提出的一种高双折射光子晶体光纤的模式截止、损耗、模场半径及数值孔径等特性。
3.
In two cascaded pieces of photonic crystal fiber(PCF),the Four Wave Mixing(FWM) including wavelength conversion and parametric amplification was demonstrated.
利用两段光子晶体光纤级连,对光子晶体光纤中的四波混频(FWM)现象(波长变换和参量放大)进行了实验研究,得到了-25 dB的波长转换效率,波长转换的带宽达32 nm,同时得到了5 dB的参量增益。
4) PCF
光子晶体光纤
1.
Application of Canny Arithmetic Operator in PCF Section Detection;
Canny算法在光子晶体光纤端面图像处理中的应用
2.
The numerical simulation and analysis of the dispersion properties of a novel hexagonal core Photonic Crystal Fiber(PCF) are performed by using the multipole method.
文章利用多极法对新型六角芯光子晶体光纤的色散特性进行了数值模拟与分析,研究发现,通过改变第一包层空气孔直径和空气孔间距,可以灵活地设计波长在1。
3.
Compared with the conventional polarization maintaining fiber(PMF),polarization maintaining Photonic Crystal Fiber(PM-PCF) has such advantages as higher birefringence and lower temperature polarization coefficient.
与普通保偏光纤相比,保偏光子晶体光纤(PM-PCF)具有高双折射、低温度偏振系数等优点。
5) photonic crystal fiber (PCF)
光子晶体光纤
1.
The confinement loss of fundamental-mode in a photonic crystal fiber (PCF) with depressed-index core is investigated by multipole method, and it is compared with that of a PCF without doping.
应用多极法理论计算了低折射率芯光子晶体光纤(PCF)基模的损耗并与未掺杂芯PCF进行了比较,发现可以从损耗的角度来理解低折射率芯PCF的截止特性传输波长靠近短波长时,模式的损耗会突然变大,从而导致基模截止;而处于长波长时,这种光纤的传输特性和普通PCF相类似。
2.
The photonic crystal fiber (PCF) has a lot of peculiar features and broad prospects of application.
光子晶体光纤(PCF)有着许多奇异的特点和广泛的应用前景。
3.
With the presentation of the photonic crystal fiber (PCF), the research progress and the applications of PCF grating were introduced in this paper.
结合光子晶体光纤介绍了光子晶体光纤在光纤光栅中的应用与研究进展 ,并较详细地描述了 5种光子晶体光纤光栅的制作方法及光栅特性。
6) photonic crystal fiber(PCF)
光子晶体光纤(PCF)
1.
By mean of a tunable Ti:sapphire laser with the duration of 5 ps and the peak power of 5 W to pump a photonic crystal fiber(PCF) of 4.
8 m,零色散点在810 nm的光子晶体光纤(PCF),观察到四波混频(FWM)3 dB的信号光增益,信号光和闲频光的间距为20 nm。
补充资料:光子晶体光纤
光子晶体光纤又被称为微结构光纤,近年来引起广泛关注,它的横截面上有较复杂的折射率分布,通常含有不同排列形式的气孔,这些气孔的尺度与光波波长大致在同一量级且贯穿器件的整个长度,光波可以被限制在光纤芯区传播。光子晶体光纤有很多奇特的性质。例如,可以在很宽的带宽范围内只支持一个模式传输;包层区气孔的排列方式能够极大地影响模式性质;排列不对称的气孔也可以产生很大的双折射效应,这为我们设计高性能的偏振器件提供了可能。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条