Ak F Chiral Gauge Theories

Abstract

We study asymptotically free chiral gauge theories with an SU(N) gauge group and chiral fermions transforming according to the antisymmetric rank-k tensor representation, Ak [k]N, and the requisite number, n F, of copies of fermions in the conjugate fundamental representation, F [1]N, to render the theories anomaly-free. We denote these as Ak \, F theories. We take N 2k+1 so that n F 1. The A2 \, F theories form an infinite family with N 5, but we show that the A3 \, F and A4 \, F theories are only asymptotically free for N in the respective ranges 7 N 17 and 9 N 11, and that there are no asymptotically free Ak \, F theories with k 5. We investigate the types of ultraviolet to infrared evolution for these Ak \, F theories and find that, depending on k and N, they may lead to a non-Abelian Coulomb phase, or may involve confinement with massless gauge-singlet composite fermions, bilinear fermion condensation with dynamical gauge and global symmetry breaking, or formation of multifermion condensates that preserve the gauge symmetry. We also show that there are no asymptotically free, anomaly-free SU(N) Sk \, F chiral gauge theories with k 3, where Sk denotes the rank-k symmetric representation.