The role of hidden symmetries and Kaluza-Klein mass generation in extra-dimensional gauge theories

TL;DR

This paper investigates how hidden symmetries and the Kaluza-Klein mechanism contribute to mass generation in extra-dimensional gauge theories, revealing that many features are independent of the specific geometry of compact dimensions.

Contribution

It provides a detailed analysis of the role of hidden symmetries and mass generation in Kaluza-Klein theories, emphasizing their generality beyond specific geometries.

Findings

Low-energy theory is determined by symmetries and variables

Mass terms and eigenfunctions are fixed by invariants

Presence of Kaluza-Klein pseudo-Goldstone bosons

Abstract

The transition from formulations with extra dimensions to Kaluza-Klein theories, aimed at extending the Standard Model, bears the ingredients of hidden symmetries and the Kaluza-Klein mechanism for mass generation. We explore these essential aspects in detail, and find that much can be said about them with no reference to the specific geometry of compact extra dimensions: the low-energy theory is determined, included dynamic variables and symmetries; mass terms arise; eigenfunctions that define Kaluza-Klein fields are fixed by the appropriate choice a Casimir invariant; there is a set of Kaluza-Klein pseudo-Goldstone bosons. Throughout our presentation, similarities and differences among spontaneous symmetry breaking, commonly present in conventional Standard Model extensions, and what happens in Kaluza-Klein theories are signaled and discussed.