The Global Renormalization Group Trajectory in a Critical Supersymmetric Field Theory on the Lattice Z3

We consider an Euclidean supersymmetric field theory in Z(3) given by a supersymmetric Phi(4) perturbation of an underlying massless Gaussian measure on scalar bosonic and Grassmann fields with covariance the Green's function of a (stable) Levy random walk in Z(3). The Green's function depends on the Levy-Khintchine parameter alpha = 3+epsilon/2 with 0 < alpha < 2. For alpha = 3/2 the Phi(4) interaction is marginal. We prove for alpha - 3/2 = epsilon/2 > 0 sufficiently small and initial parameters held in an appropriate domain the existence of a global renormalization group trajectory uniformly bounded on all renormalization group scales and therefore on lattices which become arbitrarily fine. At the same time we establish the existence of the critical (stable) manifold. The interactions are uniformly bounded away from zero on all scales and therefore we are constructing a non-Gaussian supersymmetric field theory on all scales. The interest of this theory comes from the easily established fact that the Green's function of a (weakly) self-avoiding Levy walk in Z(3) is a second moment (two point correlation function) of the supersymmetric measure governing this model. The rigorous control of the critical renormalization group trajectory is a preparation for the study of the critical exponents of the (weakly) self-avoiding Levy walk in Z(3).