Global String Instantons
Abstract
We study the formation of gravitating global strings through quantum mechanical tunneling. The instantons that describe the nucleation process are characterized by two parameters: the string core thickness and its gravitational backreaction controlled by the string core energy density. We obtain solutions across a wide range of these parameters by carrying out numerical integration via multiple shooting methods. Our results are in agreement with previous findings on the nucleation of other topological defects; specifically, after reaching a certain threshold for the string core thickness or its gravitational backreaction, the configuration becomes homogeneous in a manner akin to Hawking-Moss solutions. Additionally, we analyze the global structure of the analytical continuation of the solutions to Lorentzian signature, revealing the emergence of a region of spacetime that describes an anisotropic universe. Finally, we also discuss the relevance of these instantons in the context of quantum cosmology.
Keywords
Cite
@article{arxiv.2410.24149,
title = {Global String Instantons},
author = {Jose J. Blanco-Pillado and Georgios Fanaras and Alexander Vilenkin},
journal= {arXiv preprint arXiv:2410.24149},
year = {2024}
}
Comments
36 pages, 17 figures