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From Redundancy to Reality: Local Gauge Invariance as a Physical Symmetry

Gao, Shan (2025) From Redundancy to Reality: Local Gauge Invariance as a Physical Symmetry. [Preprint]

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Abstract

This paper proposes a transformative reinterpretation of local gauge invariance, a cornerstone of gauge theories, as a physical symmetry rather than a mathematical redundancy. Conventionally, gauge invariance ensures that only gauge-invariant quantities, such as the electromagnetic field strength Fµν = ∂µAν − ∂νAµ, bear physical significance, rendering the potential Aµ a calculational tool. Challenging this view, I argue that local gauge invariance, analogous to translation invariance, reflects a fundamental phase freedom of quantum fields, with Aµ and the wave function ψ, fixed in the Lorenz gauge (∂µAµ = 0), constituting real physical states. This thesis is grounded in a novel analysis of the Aharonov-Bohm effect [1], where Aµ drives continuous phase shifts in field-free regions, evidencing its causal role. A rigorous derivation demonstrates that the minimal coupling rule, Dµ = ∂µ + iqAµ, emerges naturally from this symmetry, paralleling translation invariance’s role in free wave equations. Robust counterarguments address objections, including Aµ’s non-uniqueness and the primacy of invariants, affirming the Lorenz gauge’s unique determination. A critique of Rivat’s Lorentz-driven derivation highlights its limitations, reinforcing the proposed view’s generality and empirical grounding. This potential-centric ontology, rooted in the phase structure of quantum fields, suggests a unified framework for gauge interactions and gravity. The paper concludes with future directions, including dynamic Aharonov-Bohm experiments and extensions to non-Abelian theories and quantum gravity, redefining the foundations of gauge theories and their place in modern physics.


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Item Type: Preprint
Creators:
CreatorsEmailORCID
Gao, Shansgao7319@uni.sydney.edu.au
Keywords: gauge theories; gauge invariance; mathematical redundancy; physical symmetry; phase freedom; minimal coupling rule; Aharonov-Bohm effect; quantum gravity
Subjects: Specific Sciences > Physics > Quantum Gravity
Specific Sciences > Physics > Quantum Field Theory
Specific Sciences > Physics > Quantum Mechanics
Specific Sciences > Physics > Symmetries/Invariances
Depositing User: Prof. Shan Gao
Date Deposited: 05 May 2025 12:24
Last Modified: 05 May 2025 12:24
Item ID: 25246
Subjects: Specific Sciences > Physics > Quantum Gravity
Specific Sciences > Physics > Quantum Field Theory
Specific Sciences > Physics > Quantum Mechanics
Specific Sciences > Physics > Symmetries/Invariances
Date: 5 May 2025
URI: https://philsci-archive.pitt.edu/id/eprint/25246

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