Supersymmetric Rings in Field Theory

TL;DR

This paper explores the formation of BPS rings in field theory by lifting monopole solutions to higher dimensions, presenting exact supersymmetric wave solutions and their implications for ring configurations in various dimensions.

Contribution

It introduces a method to generate BPS rings in four and five dimensions from monopole solutions in five-dimensional super-Yang-Mills theory, including exact traveling wave solutions.

Findings

Exact supersymmetric traveling wave solutions for BPS strings.

Construction of macroscopic BPS rings in four dimensions.

Extension of the method to five-dimensional rings using hidden dimensions.

Abstract

We study the dynamics of BPS string-like objects obtained by lifting monopole and dyon solutions of N=2 Super-Yang-Mills theory to five dimensions. We present exact traveling wave solutions which preserve half of the supersymmetries. Upon compactification this leads to macroscopic BPS rings in four dimensions in field theory. Due to the fact that the strings effectively move in six dimensions the same procedure can also be used to obtain rings in five dimensions by using the hidden dimension.