Dimitra Karabali, Chanju Kim, V. P. Nair
Published 1997-05-13, updated 1998-04-24Version 2
We carry out the Hamiltonian analysis of non-Abelian gauge theories in (2+1) dimensions in a gauge-invariant matrix parametrization of the fields. A detailed discussion of regularization issues and the construction of the renormalized Laplace operator on the configuration space, which is proportional to the kinetic energy, are given. The origin of the mass gap is analyzed and the lowest eigenstates of the kinetic energy are explicitly obtained; these have zero charge and exhibit a mass gap . The nature of the corrections due to the potential energy, the possibility of an improved perturbation theory and a Schrodinger-like equation for the states are also discussed.
Comments: 41 pages, Plain TeX, discussion added, typos corrected
Journal: Nucl.Phys.B524:661-694,1998
Dynamical generation of the mass gap in QCD
Renormalization Group Improved Optimized Perturbation Theory: Revisiting the Mass Gap of the O(2N) Gross-Neveu Model
From the mass gap in O(N) to the non-Borel-summability in O(3) and O(4) sigma-models
