Halo Shapes, Dynamics and Environment
Abstract
In the hierarchical structure formation model cosmic halos are supposed to form by accretion of smaller units along anisotropic direction, defined by large-scale filamentary structures. After the epoch of primary mass aggregation (which depend on the cosmological model), violent relaxation processes will tend to alter the halo phase-space configuration producing quasi-spherical halos with a relatively smooth density profiles. Here we attempt to investigate the relation between halos shapes, their environment and their dynamical state. To this end we have run a large (L=500 h-1 Mpc, Np=5123 particles) N-body simulation of a flat low-density cold dark matter model with a matter density m=1-=0.3, Hubble constant H=70 km s-1 Mpc-1 and a normalization parameter of σ8=0.9. The particle mass is m p 7.7× 1010 h-1 M comparable to the mass of one single galaxy. The halos are defined using a friends-of-friend algorithm with a linking length given by l=0.17 where is the mean density. This linking length corresponds to an overdensity / mean 200 at the present epoch (z=0) and the total number of halos with more than 130 particles (M>3 × 1013 h-1 M) is 57524.
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