物理领域的规范对称性(综述)

T. Kambe
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引用次数: 0

摘要

规范不变性是理论物理中的基本对称性之一。本文综述了规范对称在电磁学、量子电动力学和几何引力理论等基础物理领域中的应用。在19世纪,规范不变性被认为是电磁势的数学非唯一性。要真正认识规范对称及其物理意义,需要在20世纪发展出两个新领域:关于连通四维时空世界结构的相对论物理学和关于波函数复表示中相因子新维度的量子力学。最后,在规范原理的基础上建立了规范理论,规范理论在量子电动力学、粒子物理和引力理论等物理领域的研究中起着指导性的作用。完美流体的流体力学可以加入这个圈子,这是本文的另一个动机。在满足欧拉方程的理想可压缩流体的旋转流动的一般表示中,有一点流体测量理论的暗示,这是作者在2013年发现的。事实上,质量守恒定律可以从新的流-流结合规范场系统所配备的规范对称中推导出来,而不是先验地给出。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Gauge Symmetries in Physical Fields (Review)
Gauge invariance is one of the fundamental symmetries in theoretical physics. In this paper, the gauge symmetry is reviewed to see how it is working in fundamental physical fields: Electromagnetism, Quantum Electro Dynamics and Geometric Theory of Gravity. In the 19th century, the gauge invariance was recognized as a mathematical non-uniqueness of the electromagnetic potentials. Real recognition of the gauge symmetry and its physical significance required two new fields developed in the 20th century: the relativity theory for physics of the world structure of linked 4d-spacetime and the quantum mechanics for the new dimension of a phase factor in complex representation of wave function. Finally the gauge theory was formulated on the basis of the gauge principle which played a role of guiding principle in the study of physicalfields such as Quantum Electrodynamics, Particle Physics and Theory of Gravitation. Fluid mechanics of a perfect fluid can join in this circles, which is another motivation of the present review. There is a hint of fluid gauge theory in the general representation of rotational flows of an ideal compressible fluid satisfying the Euler’s equation, found in 2013 by the author. In fact, law of mass conservation can be deduced from the gauge symmetry equipped in the new system of fluid-flow field combined with a gauge field, rather than given a priori.
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