The dependence of subhalo abundance matching on galaxy photometry and selection criteria

Richard Stiskalek, Harry Desmond, Thomas Holvey, Michael G. Jones

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Abstract

Subhalo abundance matching (SHAM) is a popular technique for assigning galaxy mass or luminosity to haloes produced in N-body simulations. The method works by matching the cumulative number functions of the galaxy and halo properties, and is therefore sensitive both to the precise definitions of those properties and to the selection criteria used to define the samples. Further dependence follows when SHAM parameters are calibrated with galaxy clustering, which is known to depend strongly on the manner in which galaxies are selected. In this paper we introduce a new parametrization for SHAM and derive the best-fitting SHAM parameters as a function of various properties of the selection of the galaxy sample and of the photometric definition, including Sérsic versus Petrosian magnitudes, stellar masses versus r-band magnitudes, and optical (Sloan Digital Sky Survey) versus H I (ALFALFA) selection. In each case we calculate the models’ goodness-of-fit to measurements of the projected two-point galaxy correlation function. In the optically selected samples we find strong evidence that the scatter in the galaxy–halo connection increases towards the faint end, and that AM performs better with luminosity than stellar mass. The SHAM parameters of optically and H I-selected galaxies are mutually exclusive, with the latter suggesting the importance of properties beyond halo mass. We provide best-fitting parameters for the SHAM galaxy–halo connection as a function of each of our input choices, extending the domain of validity of the model while reducing potential systematic error in its use.
Original languageEnglish
Pages (from-to)3205-3223
Number of pages19
JournalMonthly Notices of the Royal Astronomical Society
Volume506
Issue number3
Early online date1 Jul 2021
DOIs
Publication statusPublished - 1 Sept 2021

Keywords

  • galaxies: haloes
  • galaxies: photometry
  • dark matter

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