English

Helical cosmological magnetic fields from extra-dimensions

Cosmology and Nongalactic Astrophysics 2015-06-17 v2

Abstract

We study the inflationary generation of helical cosmological magnetic fields in a higher-dimensional generalization of the electromagnetic theory. For this purpose, we also include a parity breaking piece to the electromagnetic action. The evolution of extra-dimensional scale factor allows the breaking of conformal invariance of the effective electromagnetic action in 1+31+3 dimensions required for such generation. Analytical solutions for the vector potential can be obtained in terms of Coulomb wave-functions for some special cases. We also present numerical solutions for the vector potential evolution in more general cases. In the presence of a higher-dimensional cosmological constant there exist solutions for the scale factors in which both normal and extra dimensional space either inflate or deflate simultaneously with the same rate. In such a scenario, with the number of extra dimensions D=4D=4, a scale invariant spectrum of helical magnetic field is obtained. The net helicity arises, as one helical mode comes to dominate over the other at the superhorizon scales. A magnetic field strength of the order of 10910^{-9} GG can be obtained for the inflationary scale H103H\simeq 10^{-3} MplM_{pl}. Weaker fields will be generated for lower scales of inflation. Magnetic fields generated in this model respects the bounds on magnetic fields by Planck and γ\gamma-ray observations (i.e. 101610^{-16} GG << Bobs<3.4×109B_{obs}<3.4\times 10^{-9} GG).

Keywords

Cite

@article{arxiv.1409.6840,
  title  = {Helical cosmological magnetic fields from extra-dimensions},
  author = {Kumar Atmjeet and T. R. Seshadri and Kandaswamy Subramanian},
  journal= {arXiv preprint arXiv:1409.6840},
  year   = {2015}
}

Comments

4 postscript figures, version submitted to Physical Review D

R2 v1 2026-06-22T06:04:25.439Z