Strong CP as an Infrared Holonomy: The θ Vacuum and Dressing in Yang-Mills Theory

Abstract

We reformulate the strong CP problem from an infrared viewpoint in which the vacuum angle θ is not treated as a local coupling but as a global Berry-type holonomy of the infrared-dressed state space over A/G. Infrared dressing is described as adiabatic parallel transport of physical states in configuration space, generated by an infrared connection A IR. Using the Chern-Simons collective coordinate, we show that the Pontryagin index emerges as an integer infrared winding, such that the resulting holonomy phase is quantized by Q∈ Z and reproduces the standard weight eiθ Q. A quantum rotor provides a controlled infrared example illustrating why broad classes of local correlators may remain insensitive to θ, while global response functions, such as the vacuum energy curvature and the topological susceptibility, retain a nontrivial dependence. We contrast this picture with recent claims of θ--independence based on the order of limits and show that it is consistent with both the rotor benchmark and the classic Witten-Veneziano perspective.

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