English

Superhorizon magnetic fields

Cosmology and Nongalactic Astrophysics 2016-03-09 v2

Abstract

[Abridged] We analyze the evolution of superhorizon-scale magnetic fields from the end of inflation till today. Whatever is the mechanism responsible for their generation during inflation, we find that a given magnetic mode with wavenumber kk evolves, after inflation, according to the values of kηek\eta_e, nkn_{\mathbf{k}}, and Ωk\Omega_k, where ηe\eta_e is the conformal time at the end of inflation, nkn_{\mathbf{k}} is the number density spectrum of inflation-produced photons, and Ωk\Omega_k is the phase difference between the two Bogolubov coefficients which characterize the state of that mode at the end of inflation. For any realistic inflationary magnetogenesis scenario, we find that nk1kηe1n_{\mathbf{k}}^{-1} \ll |k\eta_e| \ll 1, and three evolutionary scenarios are possible: (ii) Ωkπ=O(1)|\Omega_k \mp \pi| = \mathcal{O}(1), in which case the evolution of the magnetic spectrum Bk(η)B_k(\eta) is adiabatic, a2Bk(η)=\mboxconsta^2B_k(\eta) = \mbox{const}, with aa being the expansion parameter; (iiii) Ωkπkηe|\Omega_k \mp \pi| \ll |k\eta_e|, in which case the evolution is superadiabatic, a2Bk(η)ηa^2B_k(\eta) \propto \eta; (iiiiii) kηeΩkπ1|k\eta_e| \ll |\Omega_k \mp \pi| \ll 1 or kηeΩkπ1|k\eta_e| \sim |\Omega_k \mp \pi| \ll 1, in which case an early phase of adiabatic evolution is followed, after a time ηΩkπ/k\eta_\star \sim |\Omega_k \mp \pi|/k, by a superadiabatic evolution. Once a given mode reenters the horizon, it remains frozen into the plasma and then evolves adiabatically till today. As a corollary of our results, we find that inflation-generated magnetic fields evolve adiabatically on all scales and for all times in conformal-invariant free Maxwell theory, while they evolve superadiabatically after inflation on superhorizon scales in the non-conformal-invariant Ratra model. The latter result supports our recent claim that the Ratra model can account for the presence of cosmic magnetic fields.

Keywords

Cite

@article{arxiv.1512.08600,
  title  = {Superhorizon magnetic fields},
  author = {Leonardo Campanelli},
  journal= {arXiv preprint arXiv:1512.08600},
  year   = {2016}
}

Comments

15 pages, 1 figure, typo corrected in Eq. (57), to appear in Phys. Rev. D

R2 v1 2026-06-22T12:19:19.599Z