On the Question of the Point-Particle Nature of the Electron

Abstract

The electron and the positron treated as point particles in the Two Body Dirac equations of constraint dynamics for QED possess a new and as yet undiscovered peculiar 1S0 bound-state which has a very large binding energy of about 300 keV, in addition to the usual 1S0 positronium state with a binding energy of 6.8 eV. The production and detection of the peculiar 1S0 state provide a test of the electron point-charge property. As the peculiar 1S0 state lies lower than the usual 1S0 state, the peculiar 1S0 state can be produced by a two-photon decay of the usual 1S0 state. We estimate the rate of the two-photon decay and show how it depends on the probability Pup of the admixture of the peculiar component in the predominantly usual 1S0 positronium. The produced peculiar 1S0 state in turn annihilates into two photons with a total c.m. energy of about 723 keV. Thus the signature for this new peculiar 1S0 positronium bound state would be the decay of the usual 1S0 state into four photons, with two energies bunching around 150 and two around 360 keV. Such a four-photon decay of the usual 1S0 state will not be present if the electron and positron are not point particles, or if the mixing probability Pup is very small.