Abstract
First-principles lattice determinations of the Standard Model expectation for the leading order hadronic vacuum polarization contribution to the anomalous magnetic moment of the muon have become sufficiently precise that further improvement requires including strong and electromagnetic isospin-breaking effects. We provide a continuum estimate of the strong-isospin-breaking contribution, ${a}_{\ensuremath{\mu}}^{\mathrm{SIB}}$, using $SU(3)$ chiral perturbation theory. The result is shown to be dominated by resonance-region contributions encoded in a single low-energy constant whose value is known from flavor-breaking hadronic $\ensuremath{\tau}$ decay sum rules. Implications of the form of the result for lattice determinations of ${a}_{\ensuremath{\mu}}^{\mathrm{SIB}}$ are also discussed.
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