Wave Mechanics without Gauge Fixing
Date
2003
Authors
Stewart, Andrew
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Publisher
Elsevier
Abstract
By using the multipolar gauge it is shown that the quantum mechanics of an electrically charged particle moving in a prescribed classical electromagnetic field (wave mechanics) may be expressed in a manner that is gauge invariant, except that the only gauge functions that are allowable in a gauge transformation are those that consist of the sum of a function that depends only on the space coordinates and a term that is the product of a constant and the time coordinate. The multipolar gauge specifies the specific set of potentials that are best suited for use in the Schroedinger equation.
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Keywords
Keywords: article; electromagnetic field; electronics; mass; mathematical analysis; quantum mechanics; space; time; waveform Classical electromagnetism; Gauge transformation; Multipolar gauge; Quantum mechanics; Schroedinger equation
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Source
Journal of Molecular Structure: Theochem
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Journal article
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Restricted until
2037-12-31
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