Flavor in Ninths and a Discrete Gauge Origin of the QCD Axion

Abstract

Quark and lepton hierarchies are organized by rational powers of a single parameter (the quark masses and mixings in ninths, the charged-lepton mass ratios in sixths). We argue that this structure points to a discrete Z18 origin of Froggatt--Nielsen symmetry, fixed as the least common denominator lcm(9,6)=18, with its Z9 subgroup governing the quark lattice and the full Z189×Z2 required to accommodate the half-integer lepton charges. The flavon is the unique Z18-charged scalar with a large VEV, so its phase is the Peccei--Quinn axion; the same symmetry then solves the strong CP problem and forbids every Planck-suppressed PQ-violating operator below dimension eighteen. Our central result is that, because the order of Z18 is fixed by the flavor data rather than chosen to protect the axion, the resulting high axion quality (the residual shift of the axion vacuum from θ=0 being only |Δθ| 10-27) is a prediction of the flavor structure rather than an imposed ingredient. The axion is a generation-dependent Type-II DFSZ axion with domain-wall number N DW=6. The decisive phenomenological consequence is that the same non-universal charges that reproduce the fermion masses enhance the axion--photon coupling to an observable level, Caγ0.6--1.0 (well above the higgsino-suppressed MSSM value), placing the dark-matter axion at ma 7--12~μeV within reach of upcoming haloscope searches.