Gao, Shan (2026) Half Gauge-Dependent, Half Gauge-Invariant: The Aharonov-Bohm Effect Reconsidered. [Preprint]
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Abstract
The standard semiclassical treatment of the Aharonov-Bohm (AB) effect, which predicts no observable phase shift for open electron paths in field-free regions due to gauge dependence, is shown to be incomplete. By fully quantizing both the probe electron and the electromagnetic source within quantum electrodynamics (QED), we derive an effective action that decomposes the AB phase into two equal contributions: a gauge-dependent probe phase from the source's potential acting on the electron, and a gauge-invariant source phase arising from the electron's quantum backreaction on the source via virtual-photon exchange. For open paths, where the probe phase vanishes under gauge choice, the source phase persists as a measurable part of the closed-loop value, isolated through a polarization--magnetization decomposition that separates its invariant bulk from a gauge-dependent boundary term. This uncovers a leading-order QED correction to nonrelativistic quantum mechanics, resolves longstanding debates on the AB phase's origin and locality, and refines gauge principles by revealing hidden gauge invariants in formally gauge-dependent quantities. While challenging to test directly, a conceptual scheme involving phase transfer to auxiliary qubits illustrates its potential observability, emphasizing its novelty beyond conventional closed-loop paradigms.
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| Item Type: | Preprint | ||||||
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| Keywords: | Aharonov-Bohm effect, gauge principle, observability, potentials, source phase, probe phase | ||||||
| Subjects: | Specific Sciences > Physics > Quantum Mechanics Specific Sciences > Physics > Symmetries/Invariances |
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| Depositing User: | Prof. Shan Gao | ||||||
| Date Deposited: | 01 Jan 2026 13:46 | ||||||
| Last Modified: | 01 Jan 2026 13:46 | ||||||
| Item ID: | 27699 | ||||||
| Subjects: | Specific Sciences > Physics > Quantum Mechanics Specific Sciences > Physics > Symmetries/Invariances |
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| Date: | 1 January 2026 | ||||||
| URI: | https://philsci-archive.pitt.edu/id/eprint/27699 |
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