Super-critical QED-effects via VP-energy

Abstract

The properties of the QED-vacuum energy E VP under Coulomb super-criticality condition Z>Zcr,1 are explored in essentially non-perturbative approach. It is shown that in the supercritical region E VP is the decreasing function of the Coulomb source parameters, resulting in decay into the negative range as - Z4/R. The conditions, under which the emission of vacuum positrons can be unambiguously detected on the nuclear conversion pairs background, are also discussed. In particular, for a super-critical dummy nucleus with charge Z and R(Z) 1.2 \ (2.5\, Z)1/3 fm the lowest 1s-level dives into the lower continuum at Zcr,1 170 (the model of uniformly charged ball) or Zcr,1 173 (the spherical shell model), whereupon there appears the vacuum shell with the induced charge (-2|e|) and the QED-vacuum becomes charged, but in both cases the actual threshold for reliable spontaneous positrons detection is not less than Z 210.