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Nonperturbative Renormalization of Operators in Near-Conformal Systems Using Gradient Flows

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abstract

We propose a continuous real space renormalization group transformation based on gradient flow, allowing for a numerical study of renormalization without the need for costly ensemble matching. We apply our technique in a pilot study of SU$(3)$ gauge theory with $N_f = 12$ fermions in the fundamental representation, finding the mass anomalous dimension to be $\gamma_m = 0.23(6)$, consistent with other perturbative and lattice estimates. We also present the first lattice calculation of the nucleon anomalous dimension in this theory, finding $\gamma_N = 0.05(5)$.

fields

hep-lat 1

years

2026 1

verdicts

UNVERDICTED 1

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Gradient Flow Renormalization Schemes for Composite Fermion Operators

hep-lat · 2026-07-01 · unverdicted · novelty 6.0

New A and V gradient flow schemes enable nonperturbative renormalization of composite fermion operators via conserved currents and ratios of correlation functions, demonstrated on domain-wall ensembles for Z_V/Z_A and strange quark mass.

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  • Gradient Flow Renormalization Schemes for Composite Fermion Operators hep-lat · 2026-07-01 · unverdicted · none · ref 26 · internal anchor

    New A and V gradient flow schemes enable nonperturbative renormalization of composite fermion operators via conserved currents and ratios of correlation functions, demonstrated on domain-wall ensembles for Z_V/Z_A and strange quark mass.