Dyons near the Planck scale
Abstract
In the present letter we suggest a new model of preons-dyons making composite quark-leptons and bosons, described by the supersymmetric string-inspired flipped E6× E6 gauge group of symmetry. This investigation predicts the possible extension of the Standard Model to the Family replicated gauge group model of type GNfam, where Nfam is the number of families. Here E6 and E6 are non-dual and dual sectors of theory with hyper-electric g and hyper-magnetic g charges, respectively. Our model is based on the recent theory of composite non-Abelian flux tubes in SQCD. Considering the breakdown of E6 (and E6) at the Planck scale into the SU(6)× U(1) gauge group, we have shown that the six types of composite N = 1 supersymmetric non-Abelian flux tubes are created by the condensation of spreons-dyons near the Planck scale and have fluxes quantized according to the Z6 center group of SU(6): n = n0 (n = 1, 2, 3). These fluxes give three types of k-strings with tensions Tk = kT0, where k = 1,2,3, and produce three generations of composite quark-leptons and bosons. Thus, the present model predicts Ngen = Nfam = 3. The condensation of spreons near the Planck scale gives the phase transition at scales Mcrit and Mcrit, and we have calculated the critical values of gauge coupling constants.
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