与阿布罗维茨-考普-纽维尔-塞古尔系统相关的可积分非局部有限维哈密顿系统

IF 1.2 3区物理与天体物理 Q3 PHYSICS, MATHEMATICAL Journal of Mathematical Physics Pub Date : 2024-08-16 DOI:10.1063/5.0200162

Baoqiang Xia, Ruguang Zhou

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引用次数: 0

摘要

针对存在空间逆还原的阿布罗维茨-考普-纽维尔-塞古尔（AKNS）方程，我们提出了拉克斯对的非线性化方法。因此，我们得到了一种新型的有限维哈密顿系统：它们在涉及空间变量逆的意义上是非局部的。对于这种非局部哈密顿系统，我们证明它们保持了柳维尔可积分性，并且可以在雅可比变化上线性化。我们还展示了如何通过我们的非局部有限维哈密顿系统构建具有空间逆还原的 AKNS 方程的 algebro-geometric 解。作为应用，我们得到了具有狄利克特边界条件和诺伊曼边界条件的 AKNS 方程的 algebro-geometric 解，以及非局部非线性薛定谔方程（NLS）的 algebro-geometric 解。非局部有限维可积分哈密顿系统、algebro-geometric 解、狄利克特（诺伊曼）边界、非局部 NLS 方程。

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Integrable nonlocal finite-dimensional Hamiltonian systems related to the Ablowitz-Kaup-Newell-Segur system

The method of nonlinearization of the Lax pair is developed for the Ablowitz-Kaup-Newell-Segur (AKNS) equation in the presence of space-inverse reductions. As a result, we obtain a new type of finite-dimensional Hamiltonian systems: they are nonlocal in the sense that the inverse of the space variable is involved. For such nonlocal Hamiltonian systems, we show that they preserve the Liouville integrability and they can be linearized on the Jacobi variety. We also show how to construct the algebro-geometric solutions to the AKNS equation with space-inverse reductions by virtue of our nonlocal finite-dimensional Hamiltonian systems. As an application, algebro-geometric solutions to the AKNS equation with the Dirichlet and with the Neumann boundary conditions, and algebro-geometric solutions to the nonlocal nonlinear Schrödinger (NLS) equation are obtained. nonlocal finite-dimensional integrable Hamiltonian system, algebro-geometric solution, Dirichlet (Neumann) boundary, nonlocal NLS equation.

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来源期刊

Journal of Mathematical Physics 物理-物理：数学物理

CiteScore

2.20

自引率

15.40%

发文量

396

审稿时长

4.3 months

期刊介绍： Since 1960, the Journal of Mathematical Physics (JMP) has published some of the best papers from outstanding mathematicians and physicists. JMP was the first journal in the field of mathematical physics and publishes research that connects the application of mathematics to problems in physics, as well as illustrates the development of mathematical methods for such applications and for the formulation of physical theories. The Journal of Mathematical Physics (JMP) features content in all areas of mathematical physics. Specifically, the articles focus on areas of research that illustrate the application of mathematics to problems in physics, the development of mathematical methods for such applications, and for the formulation of physical theories. The mathematics featured in the articles are written so that theoretical physicists can understand them. JMP also publishes review articles on mathematical subjects relevant to physics as well as special issues that combine manuscripts on a topic of current interest to the mathematical physics community. JMP welcomes original research of the highest quality in all active areas of mathematical physics, including the following: Partial Differential Equations Representation Theory and Algebraic Methods Many Body and Condensed Matter Physics Quantum Mechanics - General and Nonrelativistic Quantum Information and Computation Relativistic Quantum Mechanics, Quantum Field Theory, Quantum Gravity, and String Theory General Relativity and Gravitation Dynamical Systems Classical Mechanics and Classical Fields Fluids Statistical Physics Methods of Mathematical Physics.