Novel conformal structure-preserving schemes for the linearly damped nonlinear Schrödinger equation

IF 3.4 2区 数学 Q1 MATHEMATICS, APPLIED
Renjie Han , Yezi Xu , Hao Fu , Dong Yan
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引用次数: 0

Abstract

In this work, by utilizing the Strang splitting technique, some advanced conformal structure-preserving schemes are developed for solving the damped nonlinear Schrödinger equation (DNLSE). The proposed innovative numerical approaches, namely the high-order compact conformal multi-symplectic method and the conformal momentum-preserving method, have two key computational advantages. Firstly, these two approaches excel in conserving local structures, and more importantly, they are capable of maintaining exact energy dissipation rates in any time-space region, particularly under periodic boundary conditions. To validate the theoretical properties and demonstrate the efficacy and stability of these approaches in long-time integrations, we conduct through extensive numerical simulations involving both bright and dark solitons.
线性阻尼非线性薛定谔方程的新型保角结构方案
本研究利用斯特朗分裂技术,为求解阻尼非线性薛定谔方程(DNLSE)开发了一些先进的保角结构方案。所提出的创新数值方法,即高阶紧凑共形多交映方法和共形动量保留方法,具有两个关键的计算优势。首先,这两种方法在保护局部结构方面表现出色,更重要的是,它们能够在任何时空区域保持精确的能量耗散率,尤其是在周期性边界条件下。为了验证这些理论特性,并证明这些方法在长时间积分中的有效性和稳定性,我们进行了大量涉及亮孤子和暗孤子的数值模拟。
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来源期刊
Communications in Nonlinear Science and Numerical Simulation
Communications in Nonlinear Science and Numerical Simulation MATHEMATICS, APPLIED-MATHEMATICS, INTERDISCIPLINARY APPLICATIONS
CiteScore
6.80
自引率
7.70%
发文量
378
审稿时长
78 days
期刊介绍: The journal publishes original research findings on experimental observation, mathematical modeling, theoretical analysis and numerical simulation, for more accurate description, better prediction or novel application, of nonlinear phenomena in science and engineering. It offers a venue for researchers to make rapid exchange of ideas and techniques in nonlinear science and complexity. The submission of manuscripts with cross-disciplinary approaches in nonlinear science and complexity is particularly encouraged. Topics of interest: Nonlinear differential or delay equations, Lie group analysis and asymptotic methods, Discontinuous systems, Fractals, Fractional calculus and dynamics, Nonlinear effects in quantum mechanics, Nonlinear stochastic processes, Experimental nonlinear science, Time-series and signal analysis, Computational methods and simulations in nonlinear science and engineering, Control of dynamical systems, Synchronization, Lyapunov analysis, High-dimensional chaos and turbulence, Chaos in Hamiltonian systems, Integrable systems and solitons, Collective behavior in many-body systems, Biological physics and networks, Nonlinear mechanical systems, Complex systems and complexity. No length limitation for contributions is set, but only concisely written manuscripts are published. Brief papers are published on the basis of Rapid Communications. Discussions of previously published papers are welcome.
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