Generic system of exact flavor-electroweak quantities via new dynamical parameter

Abstract

Unification-type idea of a basic connection between particle mass and charge quantities is in the spirit of string theory. On the level of phenomenology, this idea means raison d'etre for particle flavor since it requires more than one mass copy i.e. transition from individual particle mass to the concept of mass-matrix. In this paper that idea is exemplified by a generic system of accurate empirical relations for dimensionless flavor-electroweak quantities (fine structure constant, muon-electron and tauon-electron mass ratios and quark CKM and neutrino PMNS mixing angles) build in terms of one small universal e-parameter as mediator of mass-matrix and charge quantities. The used in this study empirically suggested math paradigm consists of repeated exponentiation of e-powers. Accuracy boost of flavor relations from replacement of e-power terms by exponential f-terms is observed. The two widely discussed in the literature empirical flavor regularities, quark-lepton complementarity (QLC) and Koide charged lepton mass formula, are essential parts of the generic system. Solar neutrino mixing angle is predicted θsol= 34.05o by extension of QLC. Charged lepton mass ratios satisfy Koide relation with high accuracy ~10-9. The Appendix contains comments on dual objective-anthropic nature of physical reality.