Testing axion couplings to leptons in Z decays at future e+e- colliders

Abstract

We study the possibility of probing the existence of a light, invisible, axion-like particle (ALP) a in leptonic decays of the Z boson at the proposed high-energy e+e- colliders, CEPC and FCC-ee. Both projects plan to run at the Z pole, collecting 1012-1013 visible Z decays. We show that, searching for the emission of an invisible ALP from leptons in leptonic Z decays, this enormous statistics could allow to constrain the ALP couplings to leptons at an unprecedented level for laboratory experiments. In particular, within a Monte Carlo simulation framework, we estimate that CEPC/FCC-ee can be sensitive to the coupling of an invisible ALP to muons up to fa/CAμμ ≈ 1 TeV - where fa is the ALP decay constant - corresponding to BR(Z μ+μ-\,a) ≈ 3× 10-11.

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