A model that underlies the Standard model
Abstract
We assign the chiral fermion fields of the Standard model to triplets of flavor (family, generation, horizontal) symmetry, for anomaly freedom add one triplet of sterile right-handed neutrino fields, and gauge that symmetry. First we demonstrate that the resulting quantum flavor dynamics completely spontaneously self-breaks: Both the Majorana masses of sterile neutrinos and the masses of all eight flavor gluons come out proportional to the scale . Mixing of sterile neutrinos yields new CP-violating phases needed for understanding the baryon asymmetry of the Universe. Second, the dynamics with weak hypercharge radiative corrections spontaneously generates the lepton and quark masses exponentially suppressed with respect to . Three active neutrinos come out as Majorana particles extremely light by seesaw. The Goldstone theorem implies: (i) The electroweak bosons and acquire masses. (ii) There are three axions, decent candidates for dark matter. Invisibility of the Weinberg-Wilczek axion with mass restricts the scale from upwards. Third, the composite 'would-be' Nambu-Goldstone (NG) bosons of all spontaneously broken gauge symmetries have their {\it genuine composite} massive partners: (i) One flavorless Higgs-like particle accompanying three electroweak 'would-be' NG bosons. (ii) Two flavored Higgs-like particles and accompanying six flavored electroweak 'would-be' NG bosons. (iii) Three superheavy spin-zero sterile-neutrino-composites accompanying eight flavored sterile-neutrino-composite 'would-be' NG bosons. We identify with inflatons.
Cite
@article{arxiv.1606.03292,
title = {A model that underlies the Standard model},
author = {Jiri Hosek},
journal= {arXiv preprint arXiv:1606.03292},
year = {2016}
}
Comments
Introductory and concluding texts improved and shortened, new title. Typos corrected, results unchanged