Evolution of dark solitons in the presence of Raman gain and self-steepening effect 被引量：1

Evolution of dark solitons in the presence of Raman gain and self-steepening effect

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摘要 Based on the equation satisfied by optical pulse that is a slowly varying function, the higher-order nonlinear Schr o¨dinger equation(NLSE) including Raman gain and self-steepening effect is deduced in detail, and a new Raman gain function is defined. By using the split-step Fourier method, the influence of the combined effect between Raman gain and self-steepening on the propagation characteristic of dark solitons is simulated in the isotropic fiber. The results show that gray solitons can be symmetrically formed by high order dark soliton, however self-steepening effect will inhibit the formation mechanism through the phenomenon that gray solitons are produced only in the trailing edge of the central black soliton. Meanwhile, the Raman gain changes the propagation characteristic of optical soliton and inhibits the self-steepening effect, resulting in the broadening of pulse width and the decreasing of pulse offset. Based on the equation satisfied by optical pulse that is a slowly varying function, the higher-order nonlinear Schr o¨dinger equation(NLSE) including Raman gain and self-steepening effect is deduced in detail, and a new Raman gain function is defined. By using the split-step Fourier method, the influence of the combined effect between Raman gain and self-steepening on the propagation characteristic of dark solitons is simulated in the isotropic fiber. The results show that gray solitons can be symmetrically formed by high order dark soliton, however self-steepening effect will inhibit the formation mechanism through the phenomenon that gray solitons are produced only in the trailing edge of the central black soliton. Meanwhile, the Raman gain changes the propagation characteristic of optical soliton and inhibits the self-steepening effect, resulting in the broadening of pulse width and the decreasing of pulse offset.

作者于宇贾维国闫青门克内木乐张俊萍

机构地区 Department of Physical Science and Technology

出处《Chinese Physics B》 SCIE EI CAS CSCD 2015年第8期366-372,共7页 中国物理B（英文版）

基金 supported by the National Natural Science Foundation of China(Grant No.61167004) the Natural Science Foundation of Inner Mongolia Autonomous Region,China(Grant No.2014MS0104)

关键词 split-step Fourier method self-steepening effect dark soliton propagation characteristic split-step Fourier method,self-steepening effect,dark soliton propagation characteristic

分类号 O436 [机械工程—光学工程]

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