接触拓扑学与电磁学:韦恩斯坦猜想和贝尔特拉米-麦克斯韦尔场

IF 1.2 3区 物理与天体物理 Q3 PHYSICS, MATHEMATICAL Journal of Mathematical Physics Pub Date : 2024-08-29 DOI:10.1063/5.0202751
Shin-itiro Goto
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引用次数: 0

摘要

我们将接触拓扑学与四维洛伦兹流形中三维封闭黎曼子流形上的麦克斯韦空位场联系起来。为此,我们展示了接触拓扑方法可用于揭示麦克斯韦方程组一类解的拓扑特征。这一类麦克斯韦场使得电场与磁场平行。此外,这些电磁场由所谓的贝特拉米场组成。我们采用了几个定理来解决关于具有接触结构和稳定哈密顿结构的封闭流形的韦恩斯坦猜想,其中该猜想指的是里布矢量场周期轨道的存在。这里的接触形式是稳定哈密顿结构的特例。在说明如何将里布向量场与电磁一元形式联系起来之后,我们应用了关于接触流形的定理和关于稳定哈密顿结构的改进定理。然后证明了封闭场线的存在,其中场线由麦克斯韦场产生。此外,我们还证明了电磁能量沿里布矢量场是守恒的。
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Contact topology and electromagnetism: The Weinstein conjecture and Beltrami-Maxwell fields
We draw connections between contact topology and Maxwell fields in vacuo on three-dimensional closed Riemannian submanifolds in four-dimensional Lorentzian manifolds. This is accomplished by showing that contact topological methods can be applied to reveal topological features of a class of solutions to Maxwell’s equations. This class of Maxwell fields is such that electric fields are parallel to magnetic fields. In addition these electromagnetic fields are composed of the so-called Beltrami fields. We employ several theorems resolving the Weinstein conjecture on closed manifolds with contact structures and stable Hamiltonian structures, where this conjecture refers to the existence of periodic orbits of the Reeb vector fields. Here a contact form is a special case of a stable Hamiltonian structure. After showing how to relate Reeb vector fields with electromagnetic 1-forms, we apply a theorem regarding contact manifolds and an improved theorem regarding stable Hamiltonian structures. Then a closed field line is shown to exist, where field lines are generated by Maxwell fields. In addition, electromagnetic energies are shown to be conserved along the Reeb vector fields.
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来源期刊
Journal of Mathematical Physics
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.
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