Characteristic masses in galaxy quenching: environmental versus internal effects

A clear transition of galaxy quenching is identified in the multi-parameter space of stellar mass ($M_*$), bulge to total mass ratio ($B/T_{\rm m}$), halo mass ($M_{\rm h}$) and halo-centric distance ($r/r_{180}$). For a given halo mass, the characteristic stellar mass ($M_{*, \rm c}$) for the transition is about one-fifth of the stellar mass of the corresponding central galaxy, and almost independent of $B/T_{\rm m}$. Once $B/T_{\rm m}$ is fixed, the quenched fraction of galaxies with $M_* 0.5$), the trend with $M_{\rm h}$ remains but the correlation with $M_*$ is absent or becomes positive. For galaxies above $M_{\rm *, c}$ and with $B/T_{\rm m}$ fixed, the quenched fraction increases with $M_{\rm *}$, but depends only weakly on $M_{\rm h}$ in both the inner and outer regions. In general the quenched fraction increases with $B/T_{\rm m}$ when other parameters are fixed. We discuss the implications of the characteristic stellar mass for internal and environmental quenching processes. Our results suggest that environmental quenching is important only for galaxies with $M_*

Keywords:

• Astrophysics
• Physics
• Mass ratio
• Halo
• Stellar mass
• Quenching
• Bulge
• Galaxy

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