Absence of chiral symmetry breaking in multi-flavor strongly coupled lattice gauge theories

Abstract

We consider lattice gauge theories at strong coupling with gauge group U(NC), or SU(NC) restricted to the meson sector, and coupled to NF flavors of fundamental representation staggered fermions. We study the formation of a chiral condensate by means of resummation of a hopping expansion. Different classes of graphs become dominant as the parameter (NF/NC) is varied. By performing graph resummation we obtain an equation for determining the condensate as a function of (NF/NC) and mass m. For values of (NF/NC) below a critical value one reproduces the well-known result of the existence of a non-vanishing condensate solution in the m=0 limit. Above the critical (NF/NC) value, however, no such solution exists, its abrupt disappearance indicating a first order transition to a chirally symmetric phase with composite (colorless) excitation spectrum.