English

Structure Formation and Microlensing with Axion Miniclusters

Cosmology and Nongalactic Astrophysics 2019-08-09 v2 Astrophysics of Galaxies High Energy Physics - Phenomenology

Abstract

If the symmetry breaking responsible for axion dark matter production occurs during the radiation-dominated epoch in the early Universe, then this produces large amplitude perturbations that collapse into dense objects known as axion miniclusters. The characteristic minicluster mass, M0M_0, is set by the mass inside the horizon when axion oscillations begin. For the QCD axion M01010MM_0\sim 10^{-10}M_\odot, however for an axion-like particle M0M_0 can approach MM_\odot or higher. Using the Press-Schechter formalism we compute the mass function of halos formed by hierarchical structure formation from these seeds. We compute the concentrations and collapse times of these halos and show that they can grow to be as massive as 106M010^6M_0. Within the halos, miniclusters likely remain tightly bound, and we compute their gravitational microlensing signal taking the fraction of axion dark matter collapsed into miniclusters, fMCf_{\rm MC}, as a free parameter. A large value of fMCf_{\rm MC} severely weakens constraints on axion scenarios from direct detection experiments. We take into account the non-Gaussian distribution of sizes of miniclusters and determine how this effects the number of microlensing events. We develop the tools to consider microlensing by an extended mass function of non-point-like objects, and use microlensing data to place the first observational constraints on fMCf_{\rm MC}. This opens a new window for the potential discovery of the axion.

Keywords

Cite

@article{arxiv.1707.03310,
  title  = {Structure Formation and Microlensing with Axion Miniclusters},
  author = {Malcolm Fairbairn and David J. E. Marsh and Jérémie Quevillon and Simon Rozier},
  journal= {arXiv preprint arXiv:1707.03310},
  year   = {2019}
}

Comments

27 pages, 23 figures, follow up paper to 1701.04787. v2 matches published version. Appendix added on non-Gaussian effects, discussion extended

R2 v1 2026-06-22T20:43:38.903Z