Noncompact Lattice Formulation of Gauge Theories

Abstract

We expand the gauge field in terms of a suitably constructed complete set of Bloch wave functions, each labeled by a band designation \,n\, and a wave number \, K\, restricted to the Brillouin zone. A noncompact formulation of lattice QCD (or QED) can be derived by restricting the expansion only to the \,0th-band (\,n = 0\,) functions, which are simple continuum interpolations of discrete values associated with sites or links on a lattice. The exact continuum theory can be reached through the inclusion of all \,n = 0\, and \,n 0\, bands, without requiring the lattice size \, 0\,. This makes it possible, at a nonzero \,\,, for the lattice coupling \,g\, to act as the renormalized continuum coupling. All physical results in the continuum are, of course, independent of \,\,.

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