Holomorphy, Rescaling Anomalies and Exact beta Functions in Supersymmetric Gauge Theories

TL;DR

This paper clarifies the derivation of the NSVZ beta function in N=1 supersymmetric gauge theories using Wilsonian RG, revealing the role of holomorphy and field rescaling anomalies in exact beta function calculations.

Contribution

It offers a new perspective on the NSVZ beta function, emphasizing holomorphy and field rescaling anomalies within the Wilsonian RG framework, distinct from previous interpretations.

Findings

Holomorphic gauge coupling changes are 1-loop exact in perturbation theory.

NSVZ beta function arises from anomalous Jacobians during field rescaling.

Regularization prescriptions for N=1 theories from N=4 and N=2 are provided.

Abstract

There have been known "exact" beta functions for the gauge coupling in N=1 supersymmetric gauge theories, the so-called NSVZ beta functions. Shifman and Vainshtein (SV) further related these beta functions to the exact 1-loop running of the "Wilsonian" gauge coupling. All these results, however, remain somewhat mysterious. We attempt to clarify these issues by presenting new perspectives on the NSVZ beta function. Our interpretation of the results is somewhat different than the one given by SV, having nothing to do with the distinction between "Wilsonian" and "1PI" effective actions. Throughout we work in the context of the Wilsonian Renormalization Group; namely, as the cutoff of the theory is changed from M to M', we determine the appropriate changes in the bare couplings needed to keep the low energy physics fixed. The entire analysis is therefore free of infrared subtleties. When the bare Lagrangian given at the cutoff is manifestly holomorphic in the gauge coupling, we show that the required change in the holomorphic gauge coupling is exhausted at 1-loop to all orders of perturbation theory, and even non-perturbatively in some cases. On the other hand, when the bare Lagrangian has canonically normalized kinetic terms, we find that the required change in the gauge coupling is given by the NSVZ beta function. The higher order contributions in the NSVZ beta function are due to anomalous Jacobians under the rescaling of the fields done in passing from holomorphic to canonical normalization. We also give prescriptions for regularizing certain N=1 theories with an ultraviolet cutoff M preserving manifest holomorphy, starting from finite N=4 and N=2 theories. It is then in principle possible to check the validity of the exact beta function by higher order calculations in these theories.