Genuine Dilatons in Gauge Theories

Abstract

A genuine dilaton σ allows scales to exist even in the limit of exact conformal invariance. In gauge theories, these may occur at an infrared fixed point (IRFP) αIR through dimensional transmutation. These large scales at αIR can be separated from small scales produced by θμμ, the trace of the energy-momentum tensor. For quantum chromodynamics (QCD), the conformal limit can be combined with chiral SU(3) × SU(3) symmetry to produce chiral-scale perturbation theory σ, with f0(500) as the dilaton. The technicolor (TC) analogue of this is crawling TC: at low energies, the gauge coupling α goes directly to (but does not walk past) αIR, and the massless dilaton at αIR corresponds to a light Higgs boson at α αIR. It is suggested that the W and Z0 bosons set the scale of the Higgs boson mass. Unlike crawling TC, in walking TC, θμμ produces all scales, large and small, so it is hard to argue that its ``dilatonic'' candidate for the Higgs boson is not heavy.