New constraints on axion-mediated P,T-violating interaction from electric dipole moments of diamagnetic atoms

Abstract

The exchange of an axion-like particle between atomic electrons and the nucleus may induce electric dipole moments (EDMs) of atoms and molecules. This interaction is described by a parity- and time-reversal-invariance-violating potential which depends on the product of a scalar gs and a pseudoscalar gp coupling constant. We consider the interaction with the specific combination of these constants, ges gNp, which gives significant contributions to the EDMs of diamagnetic atoms. In this paper, we calculate these contributions to the EDMs of 199Hg, 129Xe, 211Rn and 225Ra for a wide range of axion masses. Comparing these results with recent experimental EDM measurements, we place new constraints on ges gNp. The most stringent atomic EDM limits come from 199Hg and improve on existing laboratory limits from other experiments for axion masses exceeding 10-2 eV.