The role of the chiral anomaly in polarized deeply inelastic scattering II: Topological screening and transitions from emergent axion-like dynamics

Abstract

In [1], we demonstrated that the structure function g1(xB,Q2) measured in polarized deeply inelastic scattering (DIS) is dominated by the triangle anomaly in both the Bjorken limit of large Q2 and the Regge limit of small xB. In the worldline formulation of quantum field theory, the triangle anomaly arises from the imaginary part of the worldline effective action. We show explicitly how a Wess-Zumino-Witten term coupling the topological charge density to a primordial isosinglet η arises in this framework. We demonstrate the fundamental role played by this contribution both in topological mass generation of the η and in the cancellation of the off-forward pole arising from the triangle anomaly in the proton's helicity (Q2). We recover the striking result by Shore and Veneziano that '(0), where ' is the slope of the QCD topological susceptibility in the forward limit. We construct an axion-like effective action for g1 at small xB that describes the interplay between gluon saturation and the topology of the QCD vacuum. In particular, we outline the role of "over-the-barrier" sphaleron-like transitions in spin diffusion at small xB. Such topological transitions can be measured in polarized DIS at a future Electron-Ion Collider.