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The Stability of the Vacuum Polarization Surrounding a Charged Particle

The internal stability of the electron has been debated for a century at both the classical and the quantum level. Recently, a local force density balance was established for the 1s electron in the H atom, based on the energy-momentum tensor of the classical Dirac field. This methodology is now extended to quantum fields by considering the force densities acting on the vacuum polarization induced by a point charge. Such a model is applicable to any charged particle at large distances, since the only vestige of its internal structure is the electric Coulomb field together with the vacuum polarization induced by it. While the polarization charge density is attracted to the point charge, it is kept from collapsing by repulsive forces due to confinement and degeneracy. It is shown analytically that the corresponding force densities are balanced for every filled shell of mj states at a given angular momentum j. The force densities are then summed over all single-electron states in the Dirac sea and renormalized by subtracting singular terms. In leading order of alpha, the force densities remain balanced. This result establishes a local force balance for a prototypical manybody system.

preprint2016arXivOpen access
F. J. Himpsel
physics.atom-phquant-ph
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F. J. Himpsel

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