QCD axion, colour-mediated neutrino masses, and B+ K+ + Emiss anomaly
Abstract
Motivated by the recent Belle II result indicating a 2.7\,σ excess of B+ K+ + Emiss events compared to the Standard Model (SM) prediction for B+ K+ , we explore an explanation to this anomaly based on a KSVZ-type QCD axion model featuring a Peccei-Quinn (PQ) symmetry breaking at high-scale, that can provide a solution to the strong CP problem with dark matter relic abundance. The model contains a PQ-charged scalar leptoquark which can interact with the SM quarks only via mass-mixing of the latter with vector-like quarks. The mixing between SM and vector-like quarks is determined by the PQ mass scales and can explain the excess B+ K+ + Emiss events while respecting other flavour constraints. The same PQ-charged scalar leptoquarks and vector-like quarks also mediate the two-loop radiative neutrino masses.
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