Naturally quality-safe GeV axion with charm coupling
Abstract
The GeV-scale QCD axion -- where Peccei-Quinn (PQ) symmetry is broken by the QCD condensate at fa(1)~GeV -- faces a structural isospin problem: the PQ spurion coupling to light quarks (u,d,s) breaks SU(2) isospin, generating an unacceptable 15\% π0--π mass splitting. We show that coupling the PQ scalar to the charm quark instead eliminates this violation entirely, and lowering mϕ 3--4~MeV makes the charm Yukawa κc mϕ perturbative (κc<1). The resulting fa M Pl solves the axion quality problem: even the lowest-dimension d=6 Planck-suppressed operator gives m PQ/ma 10-14, without any additional symmetry. The model predicts a distinctive negative ΔN eff -0.1 for mϕ 3~MeV, testable by CMB-S4. The B Kσ penguin predicts BR 2× 10-5, consistent with the Belle~II evidence for B+ K+νν at (2.30.7)× 10-5~BelleII:2024knv. All ten classes of experimental, astrophysical, and cosmological constraints are satisfied in the viable window mϕ 3--4~MeV, with the Bs mixing constraint pending a dedicated lattice calculation.
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