Electron-positron vacuum instability in strong electric fields. Relativistic semiclassical approach

Abstract

Instability of electron-positron vacuum in strong electric fields is studied. First, falling to the Coulomb center is discussed at Z>137/2 for a spinless boson and at Z>137 for electron. Then, focus is concentrated on description of deep electron levels and spontaneous positron production in the field of a finite-size nucleus with the charge Z>Z cr 170. Next, these effects are studied in application to the low-energy heavy-ion collisions. Then, we consider phenomenon of "electron condensation" on levels of upper continuum crossed the boundary of the lower continuum ε =-m in the field of a supercharged nucleus with Z Z cr. Finally, attention is focused on many-particle problems of polarization of the QED vacuum and electron condensation at ultra-short distances from a source of charge. We argue for a principal difference of cases, when the size of the source is larger than the pole size r pole, at which the dielectric permittivity of the vacuum reaches zero, and smaller r pole. Some arguments are presented in favor of the logical consistency of QED. All problems are considered within the same relativistic semiclassical approach.