New bound on the vectorial axion-down-strange coupling from K+ π+ data

Abstract

We reinterpret publicly available K+ π+ data collected by NA62 from 2016 to 2024 to constrain the fundamental vectorial coupling of the QCD axion to down and strange quarks. Using a fully reproducible likelihood analysis and a complete renormalization-group evolution of the axion couplings from the Peccei-Quinn (PQ) scale to the kaon scale, we translate the experimental limit into bounds on both the low-energy flavour-violating coupling and the fundamental UV parameters. In the generic regime where strong contributions dominate the decay amplitude, we obtain |(FV)sd(μK)| > 1.6 × 1012\,GeV. The coexistence of parametrically suppressed weak contributions implies a second, conceptually distinct constraint: the fact that weak-amplitude dominance arises from highly tuned UV coupling configurations, translates into a conservative general lower limit on the PQ scale, fa > 4.9 × 104\,GeV. These results provide the strongest accelerator-based constraints on axion-induced d s transitions and establish a robust lower bound on fa, complementary to astrophysical limits.

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