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matlab模拟光纤传输
- 分布傅里叶方法解非线性薛定谔方程,可以模拟脉冲在光线中传输
feimiao
- 报道了利用20 fs激光脉冲在两种多孔微结构光纤产生超连续谱的现象,光纤长度均为40 cm,连续谱展宽范围分别是420—980 nm 和570—920 nm 。实验上证明了不仅仅具有周期性结构的微结构光纤可以用于产生超连续谱,由无序填充气孔组成的多孔微结构光纤也可以出现类似的超强非线性和超连续谱展宽。分析表明,小模场面积和高非线性系数更有利于产生宽的超连续谱,完全光子带隙的存在导致了光谱的分立结。-reported the use of
1233
- 分布傅立叶法求解脉冲在光纤中的传输求解非线性薛定谔方程-Fourier method to solve the distribution of pulses in optical fiber transmission for solving nonlinear Schr?dinger equation
FFT
- 用matlab编写的比较全面的关于非线性光纤中孤子演化的程序-Matlab prepared with a more comprehensive on the nonlinear optical soliton evolution in the process
split_step_fourier_method
- 使用分布傅立叶法计算非线性薛定谔方程。可以得到光纤非线性传输特性。-Fourier method using the distribution of nonlinear Schr枚dinger equation. Can be non-linear optical transmission characteristics.
Matlab
- 用MATLAB仿真光纤的非线性效应中的自相位调制曲线.-Using MATLAB simulation of nonlinear optical effect of self-phase modulation curves.
SPM
- 非线性光纤光学,自相位调制(spm)的matlab实现代码-Nonlinear fiber optics, self-phase modulation (spm) to achieve the matlab code
Nonlinear_Fiber_Optics_Chinese_edition
- 光纤是20世纪的重大发明之一,其导光性能臻于完美,很难想像还会有更好的替代者。本书是光学、光子学和光通信领域的重要译著,分原理篇和应用篇两部分。原理篇包括光传输方程、群速度色散、自相位调制、调制不稳定性和光孤子、偏振效应、交叉相位调制、受激散射和光参量过程等内容,科学归纳为非线性光纤光学,侧重于基本概念和原理。应用篇内容包括光纤光栅、光纤耦合器,各种光纤干涉仪、光纤放大器和光纤激光器,光脉冲压缩技术,以及有关光纤通信系统和孤子波系统中的
fangzhen
- 仿真光纤的色散展宽 只考虑色散的影响,忽略了非线性的作用-Simulation of optical dispersion broadening the impact of dispersion only, neglecting the role of non-linear
ssprop-3.0.1
- 非线性光纤光学配套的一些实例matlab演示文件,可以更深刻的了解书本内容。美国,Govind P. Agrawal -Nonlinear fiber optics supporting some of the examples of matlab demo files, you can gain a deeper understanding of book content. The United States, Govind P. A
ssmf
- 用matlab仿真非线性薛定谔方程模拟光在光纤的传输-Matlab simulation of nonlinear Schrö dinger equation with the simulation of light in optical fiber transmission
SSFforNLSE
- 用SSF算法精确的求解了描述超短脉冲在光纤中传输的非线性薛定谔方程,对于光电子光通信的同行较有参考价值。-With the SSF algorithm for solving accurately describing the transmission of ultrashort pulses in optical fiber nonlinear Schrö dinger equation, for optoelectronic
ssprop-3.0.1
- 非线性光纤光学(第四版)的源代码,美国人写的-Nonlinear Fiber Optics (Fourth Edition) of the source code, written by the Americans
Tod
- 非线性光纤光学中用来仿真二阶色散、三阶色散以及SPM的程序,对刚开始进行科研的人有很大帮助。-Fiber optics used for simulation of nonlinear second-order dispersion, third-order dispersion and SPM process right to conduct scientific research in the beginning there is
newfolder2
- 分布傅里叶算法实现光纤传输中非线性薛定谔方程的求解-fourier method
supercontinuum
- 这些文章讲述了分步傅里叶方法,通过这些方法可以数值解非线性薛定谔方程,并且模拟光在光纤中传输随距离变化的状态,是学习光传输比较好的资料-The article was about a split-step Fourier method, numerical solution of these methods can be non-linear Schrodinger equation, and simulation of optical
RIFS
- 数值求解广义非线性薛定谔方程来仿真模拟超短脉冲在光纤中的拉曼自频移现象(The generalized nonlinear Schrodinger equation is solved numerically to simulate the Raman self frequency shift of ultrashort pulses in fiber.)
光纤激光器方程
- 光在光纤激光器中进行传输中,经过色散,损耗,增益展宽,脉冲压缩后的输出仿真(Nonlinear Schrodinger equation in optical fiber transmission)
飞秒及皮秒激光 高斯脉冲在光纤中的色散
- 超短脉冲是谐振腔中增益与损耗达到平衡、色散与非线性达到平衡时所产生的。啁啾型脉冲在光纤中传播,因色散作用及各种非线性作用谱线被展宽。(Ultra-short pulses are generated when the gain and loss of the cavity are balanced, and the dispersion and nonlinearity are balanced. Chirped pulses prop
光孤子传播过程 非线性薛定谔方程
- 本模拟是采用分步傅里叶的解,求光孤子在光线内传输过程数值求解薛定谔方程。方程是激光器在光纤中传输的过程。(In this simulation, the fractional Fourier solution is used to solve the Schrodinger equation. The equation is the process of laser transmission in fiber.)