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Title: Using Maximum Circular Velocity in Halo Occupation Distribution Models to Predict Galaxy Clustering
Abstract

Standard halo occupation distribution (HOD) models predict how galaxies occupy halos based on a single property, the virial mass,Mvir. To incorporate galaxy assembly bias, we consider alternative halo mass proxies to use in the HOD. A promising replacement is maximum circular velocity,Vmax, which measures the halo’s potential well, and successfully predicts galaxy clustering in subhalo abundance matching models. We fit galaxy clustering measurements from SDSS DR7 with two modified HODs besides the standardMvir-based model: one whereVmaxis used as the halo property that determines galaxy occupation, and the other adopting an adjustable combination ofMvirandVmax. Except for the reduced volumeMr < − 20 threshold sample fit withVmaxalone, neither change improves the model performance in predicting the projected two-point correlation function,wp. We conclude that switching the primary variable toVmaxdoes not significantly improve the HOD model’s ability to fit galaxy clustering.

 
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NSF-PAR ID:
10484958
Author(s) / Creator(s):
; ; ;
Publisher / Repository:
DOI PREFIX: 10.3847
Date Published:
Journal Name:
Research Notes of the AAS
Volume:
6
Issue:
4
ISSN:
2515-5172
Format(s):
Medium: X Size: Article No. 80
Size(s):
Article No. 80
Sponsoring Org:
National Science Foundation
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