Dressing vs. Fixing: On How to Extract and Interpret Gauge-Invariant Content

arXiv - PHYS - History and Philosophy of Physics Pub Date : 2024-04-29 DOI:arxiv-2404.18582

Philipp Berghofer, Jordan François

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Abstract

There is solid consensus among physicists and philosophers that, in gauge field theory, for a quantity to be physically meaningful or real, it must be gauge-invariant. Yet, every ``elementary" field in the Standard Model of particle physics is actually gauge-variant. This has led a number of researchers to insist that new manifestly gauge-invariant approaches must be established. Indeed, in the foundational literature, dissatisfaction with standard methods for reducing gauge symmetries has been expressed: Spontaneous symmetry breaking is deemed conceptually dubious, while gauge fixing suffers the same limitations and is subject to the same criticisms as coordinate choices in General Relativity. An alternative gauge-invariant proposal was recently introduced in the literature, the so-called ``dressing field method" (DFM). It is a mathematically subtle tool, and unfortunately prone to be confused with simple gauge transformations, hence with standard gauge~fixings. As a matter of fact, in the physics literature the two are often conflated, and in the philosophy community some doubts have been raised about whether there is any substantial difference between them. Clarifying this issue is of special significance for anyone interested in both the foundational issues of gauge theories and their invariant formulation. It is thus our objective to establish as precisely as possible the technical and conceptual distinctions between the DFM and gauge fixing.

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敷料与修补：如何提取和解释量具不变内容

物理学家和哲学家们有一个坚实的共识：在量场理论中，一个量若要有物理意义或真实存在，它必须是量规不变的。然而，粒子物理学标准模型中的每一个 "基本 "场实际上都是量规不变的。这使得一些研究者坚持认为，必须建立新的明显的量规不变方法。事实上，在基础文献中，人们已经表达了对减少量规对称性的方法的不满：自发对称破缺被认为在概念上是可疑的，而规整受到同样的限制，并受到与广义相对论中坐标选择同样的批评。最近，文献中提出了另一种规整不变的建议，即所谓的 "压场法"（DFM）。它在数学上是一种微妙的工具，不幸的是容易与简单的量规变换混淆，因此也容易与标准量规修正混淆。事实上，在物理学文献中，这两者经常被混为一谈，而在哲学界，也有人怀疑它们之间是否存在实质性的区别。澄清这个问题，对于任何对规整理论的基础问题及其不变式感兴趣的人来说，都具有特别重要的意义。因此，我们的目标是尽可能精确地确定 DFM 与轨距固定之间在技术和概念上的区别。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - PHYS - History and Philosophy of Physics

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