Axion-like particles, lepton-flavor violation and a new explanation of $a_mu$ and $a_e$


Abstract in English

Axion-like particles (ALPs) with lepton-flavor violating couplings can be probed in exotic muon and tau decays. The sensitivity of different experiments depends strongly on the ALP mass and its couplings to leptons and photons. For ALPs that can be resonantly produced, the sensitivity of three-body decays such as $muto 3e$ and $tauto 3mu$ exceeds by many orders of magnitude that of radiative decays like $muto egamma$ and $tautomugamma$. Searches for these two types of processes are therefore highly complementary. We discuss experimental constraints on ALPs with a single dominant lepton-flavor violating coupling. Allowing for one or more such couplings offers qualitatively new ways to explain the anomalies related to the magnetic moments of the muon and electron.

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