We have constructed explicit nonautonomous soliton solutions of the generalized nonlinear Sehr6dinger equation in the (3+ 1 )-dimensionM inhomogeneous cubic-quintic nonlinear medium. The gain parameter has no effec...We have constructed explicit nonautonomous soliton solutions of the generalized nonlinear Sehr6dinger equation in the (3+ 1 )-dimensionM inhomogeneous cubic-quintic nonlinear medium. The gain parameter has no effects on the motion of the soliton's phase or their velocities, and it affects just the evolution of their peaks. As two examples, we discuss the propagation of nonautonomous solitons in the periodic distributed amplification system and the exponential dispersion decreasing system. Results show that the presence of the chirp not only makes the intensity of solitons weaken more promptly, but also broadens their width.展开更多
基金Supported by the National Natural Science Foundation of China under Grant No.11005092the Program for Innovative Research Team of Young Teachers in Zhejiang Agriculture and Forestry University under Grant No.2009RC01+1 种基金the Scientific Research and Developed Fund under Grant No.2009FK42the Student Research Training Program under Grant No.201101101 of Zhejiang Agriculture and Forestry University
文摘We have constructed explicit nonautonomous soliton solutions of the generalized nonlinear Sehr6dinger equation in the (3+ 1 )-dimensionM inhomogeneous cubic-quintic nonlinear medium. The gain parameter has no effects on the motion of the soliton's phase or their velocities, and it affects just the evolution of their peaks. As two examples, we discuss the propagation of nonautonomous solitons in the periodic distributed amplification system and the exponential dispersion decreasing system. Results show that the presence of the chirp not only makes the intensity of solitons weaken more promptly, but also broadens their width.
