TY - JOUR
T1 - HALO PROPERTIES FROM OBSERVABLE MEASURES OF ENVIRONMENT
T2 - I. HALO AND SUBHALO MASSES
AU - Bowden, Haley
AU - Behroozi, Peter
AU - Hearin, Andrew
N1 - Publisher Copyright:
© 2023, National University of Ireland Maynooth. All rights reserved.
PY - 2023
Y1 - 2023
N2 - The stellar mass – halo mass relation provides a strong basis for connecting galaxies to their host dark matter halos in both simulations and observations. Other observable information, such as the density of the local environment, can place further constraints on a given halo’s properties. In this paper, we test how the peak masses of dark matter halos and subhalos correlate with observationally-accessible environment measures, using a neural network to extract as much information from the environment as possible. For high mass halos (peak mass > 1012.5M⊙), the information on halo mass contained in stellar mass–selected galaxy samples is confined to the ~ 1 Mpc region surrounding the halo center. Below this mass threshold, nearly the entirety of the information on halo mass is contained in the galaxy’s own stellar mass instead of the neighboring galaxy distribution. The overall root-mean-squared error of the best-performing network was 0.20 dex. When applied to only the central halos within the test data, the same network had an error of 0.17 dex. Our findings suggest that, for the purposes of halo mass inference, both distances to the kth nearest neighbor and counts in cells of neighbors in a fixed aperture are similarly effective measurements of the local environment.
AB - The stellar mass – halo mass relation provides a strong basis for connecting galaxies to their host dark matter halos in both simulations and observations. Other observable information, such as the density of the local environment, can place further constraints on a given halo’s properties. In this paper, we test how the peak masses of dark matter halos and subhalos correlate with observationally-accessible environment measures, using a neural network to extract as much information from the environment as possible. For high mass halos (peak mass > 1012.5M⊙), the information on halo mass contained in stellar mass–selected galaxy samples is confined to the ~ 1 Mpc region surrounding the halo center. Below this mass threshold, nearly the entirety of the information on halo mass is contained in the galaxy’s own stellar mass instead of the neighboring galaxy distribution. The overall root-mean-squared error of the best-performing network was 0.20 dex. When applied to only the central halos within the test data, the same network had an error of 0.17 dex. Our findings suggest that, for the purposes of halo mass inference, both distances to the kth nearest neighbor and counts in cells of neighbors in a fixed aperture are similarly effective measurements of the local environment.
KW - astrophysics of galaxies
KW - dark matter
KW - galaxies: dark matter
KW - galaxies: halos
KW - galaxy haloes
KW - methods: statistical
KW - neural networks
KW - statistical methods
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U2 - 10.21105/astro.2307.07549
DO - 10.21105/astro.2307.07549
M3 - Article
AN - SCOPUS:85185660392
SN - 2565-6120
VL - 6
JO - Open Journal of Astrophysics
JF - Open Journal of Astrophysics
ER -