Improved limits on lepton-flavor-violating decays of light pseudoscalars via spin-dependent μ e conversion in nuclei

Abstract

Lepton-flavor-violating decays of light pseudoscalars, P=π0,η,η'μ e, are stringently suppressed in the Standard Model up to tiny contributions from neutrino oscillations, so that their observation would be a clear indication for physics beyond the Standard Model. However, in effective field theory such decays proceed via axial-vector, pseudoscalar, or gluonic operators, which are, at the same time, probed in spin-dependent μ e conversion in nuclei. We derive master formulae that connect both processes in a model-independent way in terms of Wilson coefficients, and study the implications of current μ e limits in titanium for the Pμ e decays. We find that these indirect limits surpass direct ones by many orders of magnitude.