孤子与外力和耗散相互作用下的自共振过程

IF 5.3 1区数学 Q1 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS

Chaos Solitons & Fractals Pub Date : 2024-11-09 DOI:10.1016/j.chaos.2024.115712

Marcelo V. Flamarion , Efim Pelinovsky

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引用次数: 0

摘要

研究了存在雷诺粘度时代数孤子与外力的相互作用。在没有外力的情况下，孤子振幅随时间衰减。然而，当引入外力时，外力会起到恢复力的作用，在某些情况下，孤子的振幅会保持不变。假设外力很弱，粘度也很弱，那么就可以得到一个支配孤子振幅及其波峰位置的动力系统。对于高斯形状的外力，动力学系统有两个平衡点，即鞍形和稳定的螺旋形。将渐近结果与直接数值模拟进行了比较，发现两者在质量上非常一致。渐近理论预测的稳定螺旋是稳定的，即螺旋点附近具有选定振幅和波峰位置的孤子解会被吸引到螺旋点，并保持其振幅和位置。

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Auto-resonance process under the interaction of solitons with external force and dissipation

Algebraic soliton interactions with an external force in the presence of Reynolds viscosity is investigated. In the absence of an external force, the soliton amplitude decays over time. However, when an external force is introduced, it acts as a restoring force, and in some cases, the soliton’s amplitude is preserved. A dynamical system that governs the soliton amplitude and its crest position is obtained assuming a weak force and weak viscosity. For an external force with a Gaussian shape, the dynamical system has two equilibrium points, namely, a saddle and a stable spiral. Asymptotic results are compared with direct numerical simulations, and a strong qualitative agreement is observed. The stable spiral predicted by the asymptotic theory is stable in the sense that soliton solutions with a chosen amplitude and crest position near the spiral point are attracted to it, preserving their amplitude and location.

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来源期刊

Chaos Solitons & Fractals 物理-数学跨学科应用

CiteScore

13.20

自引率

10.30%

发文量

1087

审稿时长

9 months

期刊介绍： Chaos, Solitons & Fractals strives to establish itself as a premier journal in the interdisciplinary realm of Nonlinear Science, Non-equilibrium, and Complex Phenomena. It welcomes submissions covering a broad spectrum of topics within this field, including dynamics, non-equilibrium processes in physics, chemistry, and geophysics, complex matter and networks, mathematical models, computational biology, applications to quantum and mesoscopic phenomena, fluctuations and random processes, self-organization, and social phenomena.