Authors: John A. Gowan
In the domain of the weak force, we find two types of elementary particles: 1) the (relatively) massive electrically charged leptons (electron, muon, tau); 2) their associated "identity charges", the (relatively) massless and electrically neutral neutrinos. Neutrinos are the "bare" identity charges of their massive leptonic namesakes, one for each type of massive lepton (the electron, muon, or tau neutrino). Although the three types of neutrinos resonate from one identity to another while in flight (apparently because their only distinguishing characteristic is a slight (?) difference in mass), they will only interact with their own specific massive and charged namesakes, during transformations or the creation/destruction of single leptonic elementary particles. Neutrino "identity charges" (the characteristic charge of the weak force) provide the foundation for the information content of the Cosmos - just as the weak force asymmetry provides the matter surplus of the Cosmos. Resonance phenomena between the three neutrino types (see the magazine Nature, June 5, 2012) suggests not only that there is not much to distinguish them from each other, but also that they are indeed one of the symmetry groups of light - perhaps the most fundamental of the lot.
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