Some explorations in holomorphy

15 October 1994

journal article
research article
Published by American Physical Society (APS) in Physical Review D

Vol. 50 (8) , 5389-5397
https://doi.org/10.1103/physrevd.50.5389

Abstract

In supersymmetric theories, one can obtain striking results and insight by exploiting the fact that the superpotential and the gauge coupling function are holomorphic functions of the model parameters. The precise meaning of this holomorphy is subtle, and has been explained most clearly by Shifman and Vainshtein, who have stressed the role of the Wilsonian effective action. In this article, we elaborate on the Shifman-Vainshtein program, applying it to examples in grand unification, supersymmetric QCD, and string theory. We stress that among the ‘‘model parameters’’ are the cutoffs used to define the Wilsonian action itself, and that generically these must be defined in a field-dependent manner to obtain holomorphic results.

Keywords

All Related Versions

This publication has 14 references indexed in Scilit:

Exact results on the space of vacua of four-dimensional SUSY gauge theories
Physical Review D, 1994
Dependence of holomorphicity of the gauge coupling constant on the mass matrix in supersymmetric theories
Physical Review D, 1994
Naturalness versus supersymmetric non-renormalization theorems
Physics Letters B, 1993
Holomorphicity of the gauge coupling constant in supersymmetric theories and the mass matrix
Physics Letters B, 1993
On holomorphic dependence and infrared effects in supersymmetric gauge theories
Nuclear Physics B, 1991
Moduli dependence of string loop corrections to gauge coupling constants
Nuclear Physics B, 1991
Non-perturbative aspects in supersymmetric gauge theories
Physics Reports, 1988
Solution of the anomaly puzzle in SUSY gauge theories and the Wilson operator expansion
Nuclear Physics B, 1986
Nonrenormalization Theorems in Superstring Theory
Physical Review Letters, 1986
Dynamical supersymmetry breaking in supersymmetric QCD
Nuclear Physics B, 1984