English

Thermalized Axion Inflation

Cosmology and Nongalactic Astrophysics 2017-11-16 v3 General Relativity and Quantum Cosmology High Energy Physics - Phenomenology High Energy Physics - Theory

Abstract

We analyze the dynamics of inflationary models with a coupling of the inflaton ϕ\phi to gauge fields of the form ϕFF~/f\phi F \tilde{F}/f, as in the case of axions. It is known that this leads to an instability, with exponential amplification of gauge fields, controlled by the parameter ξ=ϕ˙/(2fH)\xi= \dot{\phi}/(2fH), which can strongly affect the generation of cosmological perturbations and even the background. We show that scattering rates involving gauge fields can become larger than the expansion rate HH, due to the very large occupation numbers, and create a thermal bath of particles of temperature TT during inflation. In the thermal regime, energy is transferred to smaller scales, radically modifying the predictions of this scenario. We thus argue that previous constraints on ξ\xi are alleviated. If the gauge fields have Standard Model interactions, which naturally provides reheating, they thermalize already at ξ2.9\xi\gtrsim2.9, before perturbativity constraints and also before backreaction takes place. In absence of SM interactions (i.e. for a dark photon), we find that gauge fields and inflaton perturbations thermalize if ξ3.4\xi\gtrsim3.4; however, observations require ξ6\xi\gtrsim6, which is above the perturbativity and backreaction bounds and so a dedicated study is required. After thermalization, though, the system should evolve non-trivially due to the competition between the instability and the gauge field thermal mass. If the thermal mass and the instabilities equilibrate, we expect an equilibrium temperature of TeqξH/gˉT_{eq} \simeq \xi H/\bar{g} where gˉ\bar{g} is the effective gauge coupling. Finally, we estimate the spectrum of perturbations if ϕ\phi is thermal and find that the tensor to scalar ratio is suppressed by H/(2T)H/(2T), if tensors do not thermalize.

Keywords

Cite

@article{arxiv.1706.00373,
  title  = {Thermalized Axion Inflation},
  author = {Ricardo Z. Ferreira and Alessio Notari},
  journal= {arXiv preprint arXiv:1706.00373},
  year   = {2017}
}

Comments

36 pages, 6 figures, Published version

R2 v1 2026-06-22T20:06:34.693Z