English

A dynamics-based density profile for dark haloes -- III. Parameter space

Cosmology and Nongalactic Astrophysics 2024-10-24 v1 Astrophysics of Galaxies

Abstract

In the previous paper of this series, we proposed a new function to fit halo density profiles out to large radii. This truncated Einasto profile models the inner, orbiting matter as ρorbexp[2/α (r/rs)α1/β (r/rt)β]\rho_{\rm orb} \propto \exp \left[-2/\alpha\ (r / r_{\rm s})^\alpha - 1/\beta\ (r / r_{\rm t})^\beta \right] and the outer, infalling term as a power-law overdensity. In this paper, we analyse the resulting parameter space of scale radius rsr_{\rm s}, truncation radius rtr_{\rm t}, steepening α\alpha, truncation sharpness β\beta, infalling normalisation δ1\delta_1, and infalling slope ss. We show that these parameters are non-degenerate in averaged profiles, and that fits to the total profiles generally recover the underlying properties of the orbiting and infalling terms. We study the connection between profile parameters and halo properties such as mass (or peak height) and accretion rate. We find that the commonly cited dependence of α\alpha on peak height is an artefact of fitting Einasto profiles to the actual, truncated profiles. In our fits, α\alpha is independent of mass but dependent on accretion rate. When fitting individual halo profiles, the parameters exhibit significant scatter but otherwise follow the same trends. We confirm that the entire profiles are sensitive to the accretion history of haloes, and that the two radial scales rsr_{\rm s} and rtr_{\rm t} particularly respond to the formation time and recent accretion rate. As a result, rtr_{\rm t} is a more accurate measure of the accretion rate than the commonly used radius where the density slope is steepest.

Keywords

Cite

@article{arxiv.2410.17324,
  title  = {A dynamics-based density profile for dark haloes -- III. Parameter space},
  author = {Benedikt Diemer},
  journal= {arXiv preprint arXiv:2410.17324},
  year   = {2024}
}

Comments

18 pages, 15 figures. Submitted to MNRAS. Comments welcome. Additional figures at http://www.benediktdiemer.com/data/

R2 v1 2026-06-28T19:32:02.690Z