Dynamical chiral symmetry breaking in gauge theories with extra dimensions

Abstract

We investigate dynamical chiral symmetry breaking in vector-like gauge theories in D dimensions with (D-4) compactified extra dimensions, based on the gap equation (Schwinger-Dyson equation) and the effective potential for the bulk gauge theories within the improved ladder approximation. The non-local gauge fixing method is adopted so as to keep the ladder approximation consistent with the Ward-Takahashi identities. Using the one-loop MS gauge coupling of the truncated KK effective theory which has a nontrivial ultraviolet fixed point (UV-FP) g* for the (dimensionless) bulk gauge coupling g, we find that there exists a critical number of flavors, Nf crit ( 4.2, 1.8 for D=6, 8 for SU(3) gauge theory): For Nf > Nf crit, the dynamical chiral symmetry breaking takes place not only in the ``strong-coupling phase'' ( g >g*) but also in the ``weak-coupling phase'' ( g <g*) when the cutoff is large enough. For Nf < Nf crit, on the other hand, only the strong-coupling phase is a broken phase and we can formally define a continuum (infinite cutoff) limit, so that the physics is insensitive to the cutoff in this case. We also perform a similar analysis using the one-loop ``effective gauge coupling''. We find the Nf crit turns out to be a value similar to that of the MS case, notwithstanding the enhancement of the coupling compared with that of the MS.

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