A Composite Model of Quarks and Bosons

Abstract

A composite model of quarks and bosons is proposed in which a spin 1/2 isospin doublet is the basic building block of quarks and bosons in the standard model. The has two components v and w with charges Q=13e and Q=0, respectively, that combine to form the three generations of colored quark flavors. A strong force described by a triplet of massless gluons bind the constituents called geminis. The confining constituent non-Abelian SU(2)C field theory is called constituent dynamics with a confining energy scale CD. The constituent dynamics condensate vv+ww≠ 0 spontaneously breaks the electroweak symmetry SU(2)L× U(1)Y→ U(1) EM and a triplet of Nambu-Goldstone bosons make the gauge bosons W and Z0 massive, while retaining a massless photon. A global custodial SU(2)L× SU(2)R symmetry guarantees that the symmetry breaking in the weak interaction sector agrees with electroweak data. The non-Abelian SU(2)C color dynamics satisfies asymptotic freedom, which resolves the gauge and Higgs mass hierarchy problems and makes the model ultraviolet complete. The composite constituent dynamics model can realize a SU(3)C× SU(2)L× U(1)Y electroweak and strong interaction model that satisfies the naturalness principle. The three generations of colorless quarks α and β with charges Q=+1e and Q=0, respectively, which are predicted to exist in the composite model can form bound states which can be identified with the spectrum of exotic mesons.