English

An efficient and robust method to estimate halo concentration

Cosmology and Nongalactic Astrophysics 2024-01-17 v2 Astrophysics of Galaxies

Abstract

We propose an efficient and robust method to estimate the halo concentration based on the first moment of the density distribution, which is R10rvir4πr3ρ(r)dr/Mvir/rvirR_1\equiv \int_0^{r_{\rm vir}}4\pi r^3\rho(r)dr/M_{\rm vir}/r_{\rm vir}. We find that R1R_1 has a monotonic relation with the concentration parameter of the NFW profile, and that a cubic polynomial function can fit the relation with an error 3%\lesssim 3\%. Tests on ideal NFW halos show that the conventional NFW profile fitting method and the Vmax/VvirV_{\rm max}/V_{\rm vir} method produce biased halo concentration estimation by 10%\approx 10\% and 30%\approx 30\%, respectively, for halos with 100 particles. In contrast, the systematic error for our R1R_1 method is smaller than 0.5%0.5\% even for halos containing only 100 particles. Convergence tests on realistic halos in NN-body simulations show that the NFW profile fitting method underestimates the concentration parameter for halos with 300\lesssim 300 particles by 20%\gtrsim 20\%, while the error for the R1R_1 method is 8%\lesssim 8\%. We also show other applications of R1R_1, including estimating VmaxV_{\rm max} and the Einasto concentration cervir/r2c_{\rm e}\equiv r_{\rm vir}/r_{-2}. The calculation of R1R_1 is efficient and robust, and we recommend including it as one of the halo properties in halo catalogs of cosmological simulations.

Keywords

Cite

@article{arxiv.2310.00200,
  title  = {An efficient and robust method to estimate halo concentration},
  author = {Kai Wang and H. J. Mo and Yangyao Chen and Joop Schaye},
  journal= {arXiv preprint arXiv:2310.00200},
  year   = {2024}
}

Comments

17 pages, 9 + 9 figures. Main figure: Fig. 3. MNRAS accepted

R2 v1 2026-06-28T12:36:50.118Z