The broader supercontinuum could be got by optimization of pump wavelength;
通过对抽运波长的优化,可以实现最大程度的超连续展宽;
We carry on research on the supercontinuum generation in dispersion-shifted fiber.
本文还对色散位移光纤中产生超连续谱做了深入的研究。
Supercontinuum bandwidth with optimum chirp increases along with pluse peak power increases.
在最佳啁啾值时的光谱展宽也与功率成正比。
The properties of photonic crystal fiber (PCF) made it an excellent medium for supercontinuum generation.
光子晶体光纤的优异性能使其成为产生超荧光的优秀介质。
The supercontinuum(SC) spectra generated are compared in dispersion decreasing fibers(DDF) with different dispersion profile.
比较了在不同色散分布的色散渐减光纤中超连续(SC)谱的产生。
The experimental results show that super non-linearity occurs as the MFs with random air lines are used for generation of supercontinuum.
实验结果表明,由非规则填充气孔组成的多芯微结构光纤可以出现超强的非线性和超连续谱展宽。
Chapter 3: Focuses on the effect of frequency chirping on Supercontinuum generation in dispersion flattened and dispersion decreasing fibers.
第三章:研究了色散平坦渐减光纤中,入射光脉冲的初始啁啾对超连续谱产生的影响情况。
In this paper, we focus on femtosecond acquired in fiber laser and supercontinuum generation in dispersion-shifted fiber pumped by femtosecond pulses.
本文主要研究的内容是在光纤激光器中产生飞秒脉冲和利用飞秒脉冲泵浦色散位移光纤产生超连续谱。
Supercontinuum generation in anomalous dispersion_flattened fibers through higher_order soliton compression effect is simulated and analyzed in detail.
通过数值计算,对反常色散平坦光纤中高阶孤子压缩效应产生超连续谱进行了系统、深入的研究。
Supercontinuum generation in PCFs has subsequently been widely applied in interdisciplinary fields such as optical coherence tomography and optical frequency metrology.
例如,光子晶体光纤中超连续光谱产生在光相干层析技术、高精密光学测量等领域有很重要应用价值。
Non-silica glass materials are good candidates for fabricating microstructured fibers used for mid-IR supercontinuum generation because of their high transmittance in the region.
为产生中红外波段的超连续谱,须使用在该波段具有高透过率的非石英材料来拉制光纤或微结构光纤。
The instability of the femtosecond laser pulses which can wash out the spectral fine structure and degrade the coherence of the generated supercontinuum has also been discussed here.
分析讨论了飞秒激光脉冲参数对超连续光谱的影响以及脉冲不稳定性对超连续光谱产生的影响情况;
The processes responsible for the generation of a supercontinuum are identified though the simulation of the nonlinear Schrodinger equation by Split-step Fast Fourier Transform Method.
利用分步傅立叶法数值模拟了广义的非线性薛定谔方程, 分析研究了 多种条件下超 连续光谱的产生过程;
Supercontinuum is such an optical phenomena that when ultrashort pulses propagating in nonlinear media, its optical spectrum becomes very broad, much wider than that of the original spectrum.
超连续谱产生现象是指超短脉冲在介质中传输时由于介质的非线性效应导致脉冲的谱被极大地加宽,透视谱中产生了很多新的频率成分。
Supercontinuum is such an optical phenomena that when ultrashort pulses propagating in nonlinear media, its optical spectrum becomes very broad, much wider than that of the original spectrum.
超连续谱产生现象是指超短脉冲在介质中传输时由于介质的非线性效应导致脉冲的谱被极大地加宽,透视谱中产生了很多新的频率成分。
应用推荐