ELUCID V. Lighting dark matter halos with galaxies

TL;DR

This paper introduces a neighborhood abundance matching method to accurately link galaxies with dark matter halos in the ELUCID simulation, enabling better constraints on galaxy formation models using SDSS data.

Contribution

The novel neighborhood abundance matching technique effectively reproduces galaxy-halo relations and biases, improving the reliability of galaxy-subhalo connections for galaxy formation studies.

Findings

Accurately reproduces central-subhalo luminosity and mass relations

Matches satellite galaxy fractions and conditional luminosity functions

Replicates galaxy-dark matter cross correlation functions

Abstract

In a recent study, using the distribution of galaxies in the north galactic pole of SDSS DR7 region enclosed in a 500$\mpch$ box, we carried out our ELUCID simulation (Wang et al. 2016, ELUCID III). Here we {\it light} the dark matter halos and subhalos in the reconstructed region in the simulation with galaxies in the SDSS observations using a novel {\it neighborhood} abundance matching method. Before we make use of thus established galaxy-subhalo connections in the ELUCID simulation to evaluate galaxy formation models, we set out to explore the reliability of such a link. For this purpose, we focus on the following a few aspects of galaxies: (1) the central-subhalo luminosity and mass relations; (2) the satellite fraction of galaxies; (3) the conditional luminosity function (CLF) and conditional stellar mass function (CSMF) of galaxies; and (4) the cross correlation functions between galaxies and the dark matter particles, most of which are measured separately for all, red and blue galaxy populations. We find that our neighborhood abundance matching method accurately reproduces the central-subhalo relations, satellite fraction, the CLFs and CSMFs and the biases of galaxies. These features ensure that thus established galaxy-subhalo connections will be very useful in constraining galaxy formation processes. And we provide some suggestions on the three levels of using the galaxy-subhalo pairs for galaxy formation constraints. The galaxy-subhalo links and the subhalo merger trees in the SDSS DR7 region extracted from our ELUCID simulation are available upon request.