Circulating electrons, superconductivity, and the Darwin-Breit interaction

Abstract

The importance of the Darwin-Breit interaction between electrons in solids at low temperatures is investigated. The model problem of particles on a circle is used and applied to mesoscopic metal rings in their normal state. The London moment formula for a rotating superconducting sphere is used to calculate the number, N, of superconducting electrons on the sphere. This number is found to be three times the radius, R, of the sphere divided by the classical electron radius, i.e.\ N=3R/r e. The Darwin-Breit interaction gives a natural explanation for this relation from first principles. It also is capable of electron pairing. Collective effects of this interaction require a minimum of two dimensions but electron pairing is enhanced in one-dimensional systems.

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