The sine-Gordon model and the small k+ region of light-cone perturbation theory
Abstract
The non-perturbative ultraviolet divergence of the sine-Gordon model is used to study the k+ = 0 region of light-cone perturbation theory. The light-cone vacuum is shown to be unstable at the non-perturbative β2 = 8π critical point by a light-cone version of Coleman's variational method. Vacuum bubbles, which are k+=0 diagrams in light-cone field theory and are individually finite and non-vanishing for all β, conspire to generate ultraviolet divergences of the light-cone energy density. The k+ = 0 region of momentum also contributes to connected Green's functions; the connected two point function will not diverge, as it should, at the critical point unless diagrams which contribute only at k+ = 0 are properly included. This analysis shows in a simple way how the k+ =0 region cannot be ignored even for connected diagrams. This phenomenon is expected to occur in higher dimensional gauge theories starting at two loop order in light-cone perturbation theory.
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