Mapping Excited Gauged Q-balls
Abstract
Properties such as the radius, charge and energy of gauged Q-balls are analytically complicated to characterize. A mapping relation is known between the ground state of gauged Q-balls and global Q-balls that reduces the complexity of the analysis of the ground state of gauged Q-balls. Extending the map to excited states is a powerful tool to determine the properties of the rest of gauged Q-ball solution space. In this article we explore the mapping relation extension to characterize numerically and analytically excited gauged Q-balls solutions and their properties. A feature of excited gauged Q-balls is acquiring a maximum number excited states and having a maximal size, which we analytically predict via the mapping relation. We show that analytical approximations of the charge and energy, in the thin-wall limit, can be extended to excited gauged Q-balls and discuss the types of instabilities of these states.
Cite
@article{arxiv.2404.03053,
title = {Mapping Excited Gauged Q-balls},
author = {Yahya Almumin},
journal= {arXiv preprint arXiv:2404.03053},
year = {2024}
}
Comments
Minor typo corrections and reference additions