The U boson, interpolating between a generalized dark photon or dark Z, an axial boson and an axionlike particle

Abstract

A light boson U from an extra U(1) interpolates between a generalized dark photon coupled to Q,\ B and Li (or B-L), plus possibly dark matter, a dark Z coupled to the Z current, and one axially coupled to quarks and leptons. We identify the corresponding U(1)F symmetries, with F= γY Y+γB B+γLiLi+γA FA+γF'F'\!+γd Fd, Fd acting in a dark sector and F' on possible semi-inert BEH doublets uncoupled to quarks and leptons. The U current is obtained from the U(1)F and Z currents, with a mixing determined by the spin-0 BEH fields. The charge QU of chiral quarks and leptons is a combination of Q,\ B,\ Li and T3L with the axial FA. It involves in general isovector and isoscalar axial terms, in the presence of two BEH doublets. A longitudinal U with axial couplings has enhanced interactions, and behaves much as an axionlike particle. Its axial couplings gA, usually restricted to < 2× 10-7 mU(MeV), lead to effective pseudoscalar ones gP= gA× 2mq,l\,/mU=21/4\, GF1/2\, mq,l \ A . \,A is proportional to an invisibility parameter r=θA induced by a singlet v.e.v., possibly large and allowing the U to be very weakly interacting. This allows for a very small gauge coupling, expressed with two doublets and a singlet as g"\!/4 2× 10-6 mU(MeV) r/ 2β. We discuss phenomenological implications for meson decays, neutrino interactions, atomic-physics parity violation, naturally suppressed π0γ U decays, etc.. The U boson fits within the grand-unification framework, in symbiosis with a SU(4) es electrostrong symmetry broken at the GUT scale, with QU depending on Q,\ B-L,\ FA and T3A through three parameters γY,\ γA and η.