Assuming the boson is made of e- and e+, their kinetic energy would be equal to mass of the boson minus the pair. This condition might prevent the anhilation which explain the absence of the gamma. About e- e+ pairing different from positronium there is a paper of A. O. Barut titled THE ELECTRON-POSITRON SYSTEM AT SHORT DISTANCES available from http://library01.ictp.it.
On 5/29/16, Jones Beene <jone...@pacbell.net> wrote: > -----Original Message----- > From: H Ucar > > ... I had speculated about possibility of a bound state of e- and e+ at a > short distance through magnetic interaction different from para/ortho > positroniums and if the bond will be stable this would be a candidate for > dark matter (WIMP). > > > The lack of the characteristic gamma is the most problematic feature of this > boson, and the same with Holmlid's muons. Why is it missing? Don Hotson had > an answer - there is no real annihilation event. This explanation is moving > into the EPO/Epola territory of Hotson/Simhony where the electron and > positron are the actual makeup of the vacuum, and annihilation events are > not favored and rare. It would be analogous to ordinary salt crystal > lattices where ions oscillate in and out but do not convert substantial mass > to energy when they neutralize into the crystal. But with epos, the > "crystal" is the background state which is hidden from sensory perception. > >