English

Bose-Einstein Condensate dark matter with logarithmic nonlinearity

General Relativity and Quantum Cosmology 2025-12-23 v1 Astrophysics of Galaxies High Energy Physics - Theory

Abstract

If dark matter is composed of massive bosons, a Bose-Einstein Condensation process must have occurred during the cosmological evolution. Therefore, galactic dark matter may be in a form of a self-gravitating condensate, in the presence of self-interactions. We consider the possibility that the self-interacting potential of the condensate dark matter is of the logarithmic form. In order to describe the condensate dark matter we use the Gross-Pitaevskii equation with a logarithmic nonlinearity, and the Thomas-Fermi approximation. With the use of the hydrodynamic representation of the Gross-Pitaevskii equation we obtain the equation of state of the condensate, which has the form of the ideal gas equation of state, with the pressure proportional to the dark matter density. The basic equation describing the density distribution of the static condensate is derived, and its solution is obtained in the form of a series solution, constructed with the help of the Adomian Decomposition Method. To test the model we consider the properties of the galactic rotation curves in the logarithmic Bose-Einstein Condensate dark matter scenario, by using a sample from the Spitzer Photometry and Accurate Rotation Curves (SPARC) data. The fit of the theoretical predictions of the rotation curves with the observational data indicate that the logarithmic Bose-Einstein Condensate dark matter model gives an acceptable description of the SPARC data, and thus it may be considered as a possible candidate for the in depth understanding of the dark matter properties.

Keywords

Cite

@article{arxiv.2512.19042,
  title  = {Bose-Einstein Condensate dark matter with logarithmic nonlinearity},
  author = {Zahra Haghani and Tiberiu Harko},
  journal= {arXiv preprint arXiv:2512.19042},
  year   = {2025}
}

Comments

24 pages, 12 figures, Accepted for publication in PRD

R2 v1 2026-07-01T08:36:11.285Z