Long-distance properties of frozen U(1) Higgs and axially U(1)-gauged four-Fermi models in 1+1 dimensions

Abstract

We study the long-distance relevance of vortices (instantons) in an N-component axially U(1)-gauged four-Fermi theory in 1+1 dimensions, in which a naive use of 1/N expansion predicts the dynamical Higgs phenomenon. Its general effective lagrangian is found to be a frozen U(1) Higgs model with the gauge-field mass term proportional to an anomaly parameter (b). The dual-transformed versions of the effective theory are represented by sine-Gordon systems and recursion-relation analyses are performed. The results suggest that in the gauge-invariant scheme (b=0) vortices are always relevant at long distances, while in non-invariant schemes (b>0) there exists a critical N above which the long-distance behavior is dominated by a free massless scalar field.

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