Consistency of in chiral Yang-Mills theory with adiabatic continuity

Abstract

We study the pattern of chiral symmetry breaking () in the η model (with the chiral fermion sector containing \ij\, [ij], and ηiA, see [1]) on R3 × S1L and derive implications to R4 physics. Center-symmetric vacua are stabilized by a double-trace deformation. With the center symmetry maintained at small L(S1) -1, i.e. at weak coupling, no phase transitions are expected in passing to large L(S1) -1 (here is the dynamical Yang-Mills scale). Starting with the small L-limit, we find the leading-order nonperturbative corrections in the given theory. The instanton-monopole operators induce the adjoint chiral condensate \ij\[jk] ≠ 0 at weak coupling i.e. at L(S1) -1. Then adiabatic continuity tells us that \ij\[jk] ≠ 0 exists on R4, in full accord with the prediction [2]. Simultaneously with \ij\[jk] 3δik the SU(Nc) gauge symmetry is spontaneously broken at strong coupling down to its maximal Abelian subgroup.

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