The pre-infall bias of subhalos

Abstract

Dark matter halos destined to fall into a more massive host differ from typical field halos of the same mass even before infall. In cosmological simulations, we find that the progenitor mass functions of these "future subhalos" are systematically shifted toward higher masses, with the shift growing as infall approaches. The bias takes a compact form within extended Press-Schechter theory: the collapse barrier is multiplied by a function β(D/Dinfall,a), where D is the linear growth factor at scale factor a and Dinfall is the growth factor at infall. We find β(x,a)=(1-x)1.20+0.14a for the M200c mass definition and (1-x)1.20+0.05a for M200m; the explicit scale-factor dependence captures the late-time influence of dark energy. One consequence is that halos shortly before infall are 10-15% more centrally concentrated than typical field halos of the same mass.