Abstract
Abstract
We consider a QEDd+1, d = 1, 3 lattice model with emergent Lorentz or chiral symmetry, both when the interaction is irrelevant or marginal. While the correlations present symmetry breaking corrections, we prove that the Adler-Bardeen (AB) non-renormalization property holds at a non-perturbative level even at finite lattice: all radiative corrections to the anomaly are vanishing. The analysis uses a new technique based on the combination of non-perturbative regularity properties obtained by exact renormalization Group methods and Ward Identities. The AB property, essential for the renormalizability of the standard model, is therefore a robust feature imposing no constraints on possible symmetry breaking terms, at least in the class of lattice models considered.
Publisher
Springer Science and Business Media LLC
Subject
Nuclear and High Energy Physics
Reference24 articles.
1. A.M. Polyakov, Gauge fields and strings, Contemp. Concepts Phys. 3 (1987) 1 [INSPIRE].
2. J. Polchinski, Effective field theory and the Fermi surface, in Recent directions in particle theory: from superstrings and blackholes to the standard model, Boulder, CO, U.S.A., 1–26 June 1992, pp. 235–274 (1992).
3. E. Witten, Symmetry and emergence, Nature Phys. 14 (2018) 116.
4. S.L. Adler, Axial vector vertex in spinor electrodynamics, Phys. Rev. 177 (1969) 2426 [INSPIRE].
5. S.L. Adler and W.A. Bardeen, Absence of higher order corrections in the anomalous axial vector divergence equation, Phys. Rev. 182 (1969) 1517 [INSPIRE].
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