Cosmic Necklaces from String Theory
Abstract
We present the properties of a cosmic superstring network in the scenario of flux compactification. An infinite family of strings, the (p,q)-strings, are allowed to exist. The flux compactification leads to a string tension that is periodic in 'p'. Monopoles, appearing here as beads on a string, are formed in certain interactions in such networks. This allows bare strings to become cosmic necklaces. We study network evolution in this scenario, outlining what conditions are necessary to reach a cosmologically viable scaling solution. We also analyze the physics of the beads on a cosmic necklace, and present general conditions for which they will be cosmologically safe, leaving the network's scaling undisturbed. In particular, we find that a large average loop size is sufficient for the beads to be cosmologically safe. Finally, we argue that loop formation will promote a scaling solution for the interbead distance in some situations.
Keywords
Cite
@article{arxiv.astro-ph/0701427,
title = {Cosmic Necklaces from String Theory},
author = {Louis Leblond and Mark Wyman},
journal= {arXiv preprint arXiv:astro-ph/0701427},
year = {2008}
}
Comments
14 pages, 5 figures; v3, typos corrected, comments added, published version