Nonperturbative renormalization group in a light-front three-dimensional real scalar model
Abstract
The three-dimensional real scalar model, in which the Z2 symmetry spontaneously breaks, is renormalized in a nonperturbative manner based on the Tamm-Dancoff truncation of the Fock space. A critical line is calculated by diagonalizing the Hamiltonian regularized with basis functions. The marginal (φ6) coupling dependence of the critical line is weak. In the broken phase the canonical Hamiltonian is tachyonic, so the field is shifted as φ(x)(x)+v. The shifted value v is determined as a function of running mass and coupling so that the mass of the ground state vanishes.
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