Primordial magnetic fields from the string network
Abstract
Cosmic strings are a type of cosmic defect formed by a symmetry-breaking phase transition in the early universe. Individual strings would have gathered to build a network, and their dynamical motion would induce scalar--, vector-- and tensor--type perturbations. In this paper, we focus on the vector mode perturbations arising from the string network based on the one scale model and calculate the time evolution and the power spectrum of the associated magnetic fields. We show that the relative velocity between photon and baryon fluids induced by the string network can generate magnetic fields over a wide range of scales based on standard cosmology. We obtain the magnetic field spectrum before recombination as Gauss on super-horizon scales, and Gauss on sub-horizon scales in co-moving coordinates. This magnetic field grows up to the end of recombination, and has a final amplitude of approximately Gauss at the scale today. This field might serve as a seed for cosmological magnetic fields.
Cite
@article{arxiv.1601.01059,
title = {Primordial magnetic fields from the string network},
author = {Kouichirou Horiguchi and Kiyotomo Ichiki and Naoshi Sugiyama},
journal= {arXiv preprint arXiv:1601.01059},
year = {2016}
}
Comments
17 pages, 3 figures