利用高非线性光纤的四波混频效应,提出了实现高速全光与门的新方案。
With the FWM effect in nonlinear fibers, a novel high speed all-optical AND gate scheme is proposed.
在高非线性光纤中产生高质量的光子对对于量子信息的应用具有重要意义。
It is important to generate high quality photon pairs in the highly nonlinear optical fiber for practical applications of quantum information.
实验中分别研究了脉冲在具有不同色散特性的高非线性光纤中的传输情况,分析了光脉冲特征及光纤参数对量化精度的影响。
Pulses propagate in HNLFs with different dispersion curve have been investigated in the experiment to analyze how can the parameters of optical pulse and fiber affect the results of quantization.
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.
最后,提出了两种可实现光单偏振,单模传输的高非线性微结构光纤。
In the end, two kinds of highly nonlinear microstructured optical fibers that can achieve single-polarization, single mode transmission are designed.
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.
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.
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).
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.
该光纤所呈现的超低平坦色散高非线性效应对四波混频具有重要应用价值。
The proposed PCF with low ultra-flattened dispersion, high nonlinearity and high birefringence can have important applications on the four-wave mixing.
实验表明,采用非线性放大复合环形镜构成复合腔光纤激光器,有可能获得高重复频率的锁模脉冲。
It is suggested that using a NACLM as a passive mode locking element, generation of ultrashort pulses of very high repetition rate is promising with a fiber laser.
实验表明,采用非线性放大复合环形镜构成复合腔光纤激光器,有可能获得高重复频率的锁模脉冲。
It is suggested that using a NACLM as a passive mode locking element, generation of ultrashort pulses of very high repetition rate is promising with a fiber laser.
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