English

Cosmological perturbations with ultralight vector dark matter fields: numerical implementation in CLASS

Cosmology and Nongalactic Astrophysics 2025-05-22 v2 General Relativity and Quantum Cosmology

Abstract

In this work we consider a dark matter candidate described by an ultralight vector field, whose mass is in principle in the range Heq1028eVm<eVH_{\rm{eq}}\sim 10^{-28}\rm{eV}\ll m< \rm{eV}. The homogeneous background vector field is assumed to point in a given direction. We present a numerical implementation of cosmological perturbations in a Bianchi type I geometry with vector field dark matter in a modified version of the Cosmic Linear Anisotropy Solving System (CLASS). We study the evolution of large-scale cosmological perturbations in the linear regime. We compute the matter power spectrums defined for Fourier modes pointing in a given direction. We obtain interesting features in the power spectrums whose observational significance depends on the field mass. We compare the results with the standard ΛCDM\rm{\Lambda CDM} and with the corresponding well-studied ultralight scalar field dark matter case. As for the scalar case we obtain a suppression in the power spectrums at small scales characterized by the same scale, namely the Jeans scale. The main characteristic feature of the vector field model we notice here for first time is that the amplitude of the suppression effect depends on the direction of the Fourier modes with respect to the background vector field, leaving eventually a possible anisotropic imprint in structure formation at small scales.

Keywords

Cite

@article{arxiv.2408.12052,
  title  = {Cosmological perturbations with ultralight vector dark matter fields: numerical implementation in CLASS},
  author = {Tomás Ferreira Chase and Matías Leizerovich and Diana López Nacir and Susana Landau},
  journal= {arXiv preprint arXiv:2408.12052},
  year   = {2025}
}

Comments

19 pages, 9 figures

R2 v1 2026-06-28T18:20:14.904Z