English

Dissipative Axial Inflation

High Energy Physics - Theory 2016-12-28 v1 Cosmology and Nongalactic Astrophysics High Energy Physics - Phenomenology

Abstract

We analyze in detail the background cosmological evolution of a scalar field coupled to a massless abelian gauge field through an axial term ϕfγFF~\frac{\phi}{f_\gamma} F \tilde{F}, such as in the case of an axion. Gauge fields in this case are known to experience tachyonic growth and therefore can backreact on the background as an effective dissipation into radiation energy density ρR\rho_R, which which can lead to inflation without the need of a flat potential. We analyze the system, for momenta kk smaller than the cutoff fγf_\gamma, including numerically the backreaction. We consider the evolution from a given static initial condition and explicitly show that, if fγf_\gamma is smaller than the field excursion ϕ0\phi_0 by about a factor of at least O(20){\cal O} (20), there is a friction effect which turns on before that the field can fall down and which can then lead to a very long stage of inflation with a generic potential. In addition we find superimposed oscillations, which would get imprinted on any kind of perturbations, scalars and tensors. Such oscillations have a period of 4-5 efolds and an amplitude which is typically less than a few percent and decreases linearly with fγf_\gamma. We also stress that the comoving curvature perturbation on uniform density should be sensitive to slow-roll parameters related to ρR\rho_R rather than ϕ˙2/2\dot{\phi}^2/2, although we postpone a calculation of the power spectrum and of non-gaussianity to future work and we simply define and compute suitable slow roll parameters. Finally we stress that this scenario may be realized in the axion case, if the coupling 1/fγ1/f_\gamma to U(1) (photons) is much larger than the coupling 1/fG1/f_G to non-abelian gauge fields (gluons), since the latter sets the range of the potential and therefore the maximal allowed ϕ0fG\phi_0\sim f_G.

Keywords

Cite

@article{arxiv.1608.06223,
  title  = {Dissipative Axial Inflation},
  author = {Alessio Notari and Konrad Tywoniuk},
  journal= {arXiv preprint arXiv:1608.06223},
  year   = {2016}
}

Comments

22 pages, 27 figures

R2 v1 2026-06-22T15:26:32.771Z