Three-loop renormalization constants and anomalous dimensions are derived analytically for three-quark operators with derivatives in QCD, confirming prior N=0 results and enabling lattice matching.
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GLoop is a Monte Carlo program that computes a class of higher-loop integrals numerically from lower-loop structures via i-epsilon deformations without explicit contour deformation.
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Renormalization of three-quark operators with up to two derivatives at three loops
Three-loop renormalization constants and anomalous dimensions are derived analytically for three-quark operators with derivatives in QCD, confirming prior N=0 results and enabling lattice matching.
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GLoop: A Monte Carlo program to construct higher-loop integrals from lower-loop structures
GLoop is a Monte Carlo program that computes a class of higher-loop integrals numerically from lower-loop structures via i-epsilon deformations without explicit contour deformation.