Electromuon Predicted By AD
Is Found In Europe!

Physics Essays 5, 19 (1992),
(received by the journal on April 19, 1990.)

In New Scientist, February 11, 1995, page 14, Marcus Chown in his article ".....as WIMPs come in from the cold" writes: "The particle, which is not predicted by any theory, may have turned up in an Anglo-German experiment designed to study neutrinos." The probable "new particle" was announced in "Anomaly in the time distribution of neutrinos from a pulsed stop beam," KARMEN Collaboration, Physics Letters B 348 (1995) 19-28, March 30, 1995.

This particle is predicted by R. L. Carezani's theory, in a paper founded on his "Fundamental Bases for a new Relativistic Mechanics. Autodynamics," entitled "The Muon Decay m+--> e+e+e- and Autodynamics" published in Physics Essays 5, 19 (1992), received by the journal on April 19, 1990.

The particle was dubbed the ELECTROMUON by Carezani and has a "rest mass" of 35.2 MeV or 70.4 MeV, most likely the former. The electromuon's motion mass lies between >0.511 MeV and <70.4 MeV.
The Muon directly decays to 3 electromuons of 35.2 MeV each, or 1 electromuon of 70.4 MeV and 1 electromuon of 35.2 MeV. The elec-tromuon subsequently decays to electrons, given sufficient time.

The "apparently" detected particle could be an electromuon with a motion mass of 35.2 MeV, a kinetic energy of 35.2 MeV and a velocity of 0.866 of light speed.