Kui Huo , Bin Li , Heping Jia , J.M. Christian , Rongcao Yang
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引用次数: 0
Abstract
In this paper, a family of exact solutions to N-coupled nonlinear Schrödinger (N-CNLS) equations including bright and dark solitons, Akhmediev breathers, Kuznetsov-Ma breathers, and rogue waves are derived with the aid of a generic nonlinear wave assumption. As an application of the solutions, we present a scheme to realize amplitude coding in an identical waveguide system. Furthermore, by a general self-similar transformation method, exact controllable similaritons of N-coupled inhomogeneous NLS (N-CINLS) equations are constructed under relaxed compatibility conditions. Flexible modulations of similaritons are investigated in a typical inhomogeneous system. Based on the general self-similar transformation, we further study various and novel modulations of composite similariton of 2-CINLS regimes. The various similaritons presented here may be expected to find application in the control and transmission of nonlinear waves in realizable complex systems including those based on optical fibers and Bose-Einstein condensates.
本文借助通用非线性波假设,推导出 N 个耦合非线性薛定谔方程(N-CNLS)的一系列精确解,包括亮孤子和暗孤子、阿赫迈季耶夫呼吸子、库兹涅佐夫-马呼吸子和流氓波。作为解决方案的应用,我们提出了一种在相同波导系统中实现振幅编码的方案。此外,通过一般自相似变换方法,在宽松的相容性条件下构建了 N 个耦合非均质 NLS(N-CINLS)方程的精确可控相似子。研究了典型非均质系统中相似子的灵活调制。在一般自相似变换的基础上,我们进一步研究了 2-CINLS 复合相似子的各种新颖调制。本文介绍的各种相似子有望应用于可实现的复杂系统中非线性波的控制和传输,包括基于光纤和玻色-爱因斯坦凝聚体的系统。
期刊介绍:
Physics Letters A offers an exciting publication outlet for novel and frontier physics. It encourages the submission of new research on: condensed matter physics, theoretical physics, nonlinear science, statistical physics, mathematical and computational physics, general and cross-disciplinary physics (including foundations), atomic, molecular and cluster physics, plasma and fluid physics, optical physics, biological physics and nanoscience. No articles on High Energy and Nuclear Physics are published in Physics Letters A. The journal''s high standard and wide dissemination ensures a broad readership amongst the physics community. Rapid publication times and flexible length restrictions give Physics Letters A the edge over other journals in the field.