An efficient and robust method to estimate halo concentration

Abstract

We propose an efficient and robust method to estimate the halo concentration based on the first moment of the density distribution, which is R1 ∫0r vir4π r3(r)dr/M vir/r vir. We find that R1 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\%. Tests on ideal NFW halos show that the conventional NFW profile fitting method and the V max/V vir method produce biased halo concentration estimation by ≈ 10\% and ≈ 30\%, respectively, for halos with 100 particles. In contrast, the systematic error for our R1 method is smaller than 0.5\% even for halos containing only 100 particles. Convergence tests on realistic halos in N-body simulations show that the NFW profile fitting method underestimates the concentration parameter for halos with 300 particles by 20\%, while the error for the R1 method is 8\%. We also show other applications of R1, including estimating V max and the Einasto concentration c e r vir/r-2. The calculation of R1 is efficient and robust, and we recommend including it as one of the halo properties in halo catalogs of cosmological simulations.