Halo mass-observable proxy scaling relations and their dependencies on galaxy and group properties

Abstract

Based on the DECaLS shear catalog, we study the scaling relations between halo mass(M h) and various proxies for SDSS central galaxies, including stellar mass(M*), stellar velocity dispersion(σ*), abundance matching halo mass(M AM) and satellite velocity dispersion(σ s), and their dependencies on galaxy and group properties. In general, these proxies all have strong positive correlations with M h, consistent with previous studies. We find that the M h-M* and M h-σ* relations depend strongly on group richness(N sat), while the M h-M AM and M h-σ s relations are independent of it. Moreover, the dependence on star formation rate(SFR) is rather weak in the M h-σ* and M h-σ s relations, but very prominent in the other two. σ s is thus the best proxy among them, and its scaling relation is in good agreement with hydro-dynamical simulations. However, estimating σ s accurately for individual groups/clusters is challenging because of interlopers and the requirement for sufficient satellites. We construct new proxies by combining M*, σ*, and M AM, and find the proxy with 30\% contribution from M AM and 70\% from σ* can minimize the dependence on N sat and SFR. We obtain the M h-supermassive black hole(SMBH) mass relation via the SMBH scaling relation and find indications for rapid and linear growth phases for SMBH. We also find that correlations among M h, M* and σ* change with M*, indicating that different processes drive the growth of galaxies and SMBH at different stages.