A Bare and Gravitationally Dressed Electron Formed from Kerr–Newman Black Hole

Abstract

Abstract The Kerr–Newman (KN) electron model, based on the classical KN black hole solution, is modified by adding a “mirror” sheet of KN metric corresponding to a positron, that creates a heavy electron-positron vacuum core dressed by gravity, and allows us to consider the bare and dressed electron separately. The bare electron is formed as a massless relativistic ring string and is responsible for the wave properties of the electron, while the heavy supersymmetric vacuum core receives the additional mass-energy from two Wilson loops dragged by the KN gravitational field, thus creating a magnetically coupled monopole-antimonopole pair. As a result, the KN electron becomes consistent with wave nature of quantum electron and its gravitational interaction increases dramatically from Planck to Compton scale.