Renormalization of the flavor-singlet axial-vector current and its anomaly in dimensional regularization

Abstract

The renormalization constant ZJ of the flavor-singlet axial-vector current with a non-anticommuting γ5 in dimensional regularization is determined to order αs3 in QCD with massless quarks. The result is obtained by computing the matrix elements of the operators appearing in the axial-anomaly equation [∂μ Jμ5 ]R = αs4 π\, nf\, TF \, [F F ]R between the vacuum and a state of two (off-shell) gluons to 4-loop order. Furthermore, through this computation, the conjectured equality between the MS renormalization constant ZFF associated with the operator [F F ]R and that of αs is verified explicitly to hold true at 4-loop order. This equality automatically ensures a relation between the respective anomalous dimensions, γ J = αs4 π\, nf\, TF \, γ FJ , at order αs4 given the validity of the axial-anomaly equation which was used to determine the non-MS piece of ZJ for the particular γ5 prescription in use.

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