Electric Dipole Moment from QCD θ and How It Vanishes for Mixed States

Abstract

In a previous paper [1], we studied the η' mass and formulated its chirally symmetric coupling to fermions which induces electric dipole moment (EDM). Here we calculate the EDM to one-loop. It is finite, having no ultraviolet divergence while its infrared divergence is canceled by soft photon emission processes exactly as for θ=0. The coupling does not lead to new divergences (not present for θ=0) in soft photon processes either. Furthermore, as it was argued previously [1], the EDM vanishes if suitable mixed quantum states are used. This means that in a quantum theory based on such mixed states, a strong bound on EDM will not necessarily lead to a strong bound such as | θ| 10-11 . This fact eliminates the need to fine-tune θ or for the axion field.