LIght scalars with lepton number to solve the (g-2)e anomaly

Abstract

Scalars that carry lepton number can help mediate would-be lepton-number-violating processes, such as neutrinoless double β decay or lepton-scattering-mediated nucleon-antinucleon conversion. Here we show that such new scalars can also solve the anomaly in precision determinations of the fine-structure constant α from atom interferometry and from the electron's anomalous magnetic moment, ae (g-2)e/2, by reducing |ae|. Study of the phenomenological constraints on these solutions favor a doubly-charged scalar with mass below the GeV scale. Significant constraints arise from the measurement of the parity-violating asymmetry in Mller scattering, and we consider the implications of the next-generation MOLLER experiment at Jefferson Laboratory and of an improved ae measurement.