Darboux transformation, localized waves and conservation laws for an M-coupled variable-coefficient nonlinear Schrodinger system in an inhomogeneous optical fiber

Optical fiber communication system is one of the supporting systems in the modern internet age. We investigate an M-coupled variable-coefficient nonlinear Schrodinger system, which describes the simultaneous pulse propagation of the M-field components in an inhomogeneous optical fiber, where M is a positive integer. With respect to the complex amplitude of the jth-field (j = 1, ..., M) component in the optical fiber, we construct an n-fold Darboux transformation, where n is a positive integer. Based on the n-fold Darboux transformation, we obtain some one- and two-fold localized wave solutions for the above system with the mixed defocusing-focusing-type nonlinearity and M = 2. We acquire the infinitely-many conservation laws. Via such solutions, we obtain some vector gray solitons, interactions between the two vector parabolic/cubic gray solitons, and interactions between the vector parabolic/cubic breathers and gray solitons with different beta(z), gamma(z) and delta(z), the coefficients of the group velocity dispersion, nonlinearity and amplification/absorption. It can be found that delta(z) affects the backgrounds of the breathers and gray solitons. (C) 2021 Elsevier Ltd. All rights reserved.

Automated summary

This study investigates an M-coupled variable-coefficient nonlinear Schrödinger system in an optical fiber communication system, and obtains localized wave solutions and explores the interactions between gray solitons and breathers under different conditions.