Where and How to find susy: The auxiliary field interpretation of supersymmetry

Abstract

The gauge hierarchy problem found in perturbation theory is one of the main attractions for supersymmetry. Yet the quantum mechanical coupling of a low energy system to a high energy one invariably leads to perturbative instability, which is not a valid signal of dynamical inconsistency. We show by examples how perturbation theory with widely separated scales gives false results. We also identify the flaw in perturbative fine-tuning arguments. Non-perturbative features of random subsystems maintain and preserve the hierarchy in which they are embedded. After reviewing the likelihood the hierarchy problem is a perturbative fiction, we suggest a new interpretation of susy as practical auxiliary fields. Their function is much like Feynman's gauge ghosts, developed in perturbation theory to repair illnesses of perturbation theory. susy will be found useful when it is considered a tool of applied mathematics and data-fitting. We propose that susy data fits should be customized to the particular experimental situations they are suited to improve, without dilution from the needless assumption that susy must describe universal new physics. It is likely that susy will soon be discovered a useful part of data analysis and diagnostics towards improving the understanding of the Standard Model, and possibly towards discovering what may constitute new physics after all.