The Galaxy Clustering Crisis in Abundance Matching

Abstract

Galaxy clustering on small scales is significantly under-predicted by sub-halo abundance matching (SHAM) models that populate (sub-)haloes with galaxies based on peak halo mass, M peak. SHAM models based on the peak maximum circular velocity, V peak, have had much better success. The primary reason M peak based models fail is the relatively low abundance of satellite galaxies produced in these models compared to those based on V peak. Despite success in predicting clustering, a simple V peak based SHAM model results in predictions for galaxy growth that are at odds with observations. We evaluate three possible remedies that could "save" mass-based SHAM: (1) SHAM models require a significant population of "orphan" galaxies as a result of artificial disruption/merging of sub-haloes in modern high resolution dark matter simulations; (2) satellites must grow significantly after their accretion; and (3) stellar mass is significantly affected by halo assembly history. No solution is entirely satisfactory. However, regardless of the particulars, we show that popular SHAM models based on M peak cannot be complete physical models as presented. Either V peak truly is a better predictor of stellar mass at z 0 and it remains to be seen how the correlation between stellar mass and V peak comes about, or SHAM models are missing vital component(s) that significantly affect galaxy clustering.