English

Helical Magnetic Fields from Inflation

Astrophysics 2010-01-26 v3

Abstract

We analyze the generation of seed magnetic fields during de Sitter inflation considering a non-invariant conformal term in the electromagnetic Lagrangian of the form 14I(ϕ)FμνF~μν-\frac14 I(\phi) F_{\mu \nu} \widetilde{F}^{\mu \nu}, where I(ϕ)I(\phi) is a pseudoscalar function of a non-trivial background field ϕ\phi. In particular, we consider a toy model, that could be realized owing to the coupling between the photon and either a (tachyonic) massive pseudoscalar field and a massless pseudoscalar field non-minimally coupled to gravity, where II follows a simple power-law behavior I(k,η)=g/(kη)βI(k,\eta) = g/(-k\eta)^{\beta} during inflation, while it is negligibly small subsequently. Here, gg is a positive dimensionless constant, kk the wavenumber, η\eta the conformal time, and β\beta a real positive number. We find that only when β=1\beta = 1 and 0.1g20.1 \lesssim g \lesssim 2 astrophysically interesting fields can be produced as excitation of the vacuum, and that they are maximally helical.

Keywords

Cite

@article{arxiv.0805.0575,
  title  = {Helical Magnetic Fields from Inflation},
  author = {Leonardo Campanelli},
  journal= {arXiv preprint arXiv:0805.0575},
  year   = {2010}
}

Comments

17 pages, 1 figure, subsection IIc and references added; accepted for publication in IJMPD

R2 v1 2026-06-21T10:37:31.128Z