Absence of strong CP violation

TL;DR

This paper demonstrates that in the infinite volume limit, the strong interaction conserves CP symmetry because hadron correlation functions decouple from topological charge, explaining the absence of observed CP violation in QCD.

Contribution

It proves that hadron correlation functions decouple from topological charge in the infinite volume, resolving the strong CP problem.

Findings

Hadron correlation functions decouple from topological charge in infinite volume.

Zero modes density vanishes with inverse square root of volume.

CP symmetry is conserved in the strong interaction.

Abstract

Quantum Chromodynamics admits a CP-violating contribution to the action, the $\theta$ term, which is expected to give rise to a nonvanishing electric dipole moment of the neutron. Despite intensive search, no CP violations have been found in the strong interaction. This puzzle is referred to as the strong CP problem. There is evidence that CP is conserved in the confining theory, to the extent that color charges are totally screened for $\theta > 0$ at large distances. It is not immediately obvious that this implies a vanishing dipole moment though. With this Letter I will close the gap. It is shown that in the infinite volume hadron correlation functions decouple from the topological charge, expressed in terms of the zero modes. The reason is that hadrons have a limited range of interaction, while the density of zero modes vanishes with the inverse root of the volume, thus reducing the probability of finding a zero mode in the vicinity to zero. This implies that CP is conserved in the strong interaction.