NLSE has been solved under Soliton conditions. So that Soliton propagation can be simulated. The results are displayed in the form of 3D pulse at regular intervals, phase change and pulse broadening ratios are also calculated.
merci pour le partage
Thank you Roman.. I have a question: in pulse broadening ratio, what is the number of steps ??? is it the distance traveled ?
Ld=(N^2)/(g*Po);%dispersion length for corresponding soliton order
I guess that its length of nonlinear propagation. Dispersion length = T0^2/(betta2)
Thank u so much for the code. I have a question, when I increase the Po nothing happens to the op-pulse, i put stem3 instead of mesh to notice the width, increasing the power should cause pulse compression but the width remain unchanged, which parameter should I change ?
how can we add birefringent element in fiber link using Matlab??
Thanks. Very good.
please can you send me any toolboxs about fibre optiques or simulink link
interpritation+code source en matlab pour sumiler la propagation d'une impulsion solitonique d'ordre N=1,2,3,4 dans un fibre optique par la méthode de SSFM
Dispersion, and other entities units should be in coherence
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