Chiral gauge theories, generalized anomalies and breakdown of the color-flavor-locked center symmetry

Abstract

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Abstract We study the strong-interaction dynamics of a class of 4D chiral SU(N) gauge theories with a fermion in a symmetric second-rank tensor representation and a number of fermions in an anti-antisymmetric tensor representation, extending the previous work on chiral gauge theories such as the Bars-Yankielowicz and the generalized Georgi-Glashow models. The main tool of our analysis is the anomalies obstructing the gauging of certain 1-form color-flavor-locked center symmetry, together with some flavor symmetries. The matching requirement for these mixed-anomalies strongly favors dynamical Higgs phases caused by bifermion condensate formation, against a confinement phase with no condensates and no symmetry breaking, or a confinement phase with multifermion color-singlet condensates only. Dynamical gauge symmetry breaking and the spontaneous breaking of a U(1) symmetry caused by such condensates mean that the color-flavor-locked 1-form center symmetry itself is lost in the infrared. One is led to a solution, if not unique, which satisfies fully the conventional as well as the new, generalized ’t Hooft anomaly matching requirements.

Keywords

• Anomalies in Field and String Theories
• Global Symmetries
• Spontaneous Symmetry Breaking
• Wilson, ’t Hooft and Polyakov loops