Nonperturbative renormalization in a scalar model within Light-Front Dynamics
Abstract
Within the covariant formulation of Light-Front Dynamics, in a scalar model with the interaction Hamiltonian H=-g2(x)φ(x), we calculate nonperturbatively the renormalized state vector of a scalar "nucleon" in a truncated Fock space containing the N, Nπ and Nππ sectors. The model gives a simple example of non-perturbative renormalization which is carried out numerically. Though the mass renormalization δ m2 diverges logarithmically with the cutoff L, the Fock components of the "physical" nucleon are stable when L∞.
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