Astronomy and Astrophysics – Astrophysics
Scientific paper
1994-06-24
ApJ 433 (1994), L61
Astronomy and Astrophysics
Astrophysics
accepted in ApJ Letters, 4 pages uuencoded compressed postscript (4 figures included), IAP preprint 465
Scientific paper
10.1086/187548
We consider the dynamical evolution of small-scale substructure in clusters within two extreme alternate scenarios for their possible origin: 1) the accretion of groups (or small clusters) on quasi-radial orbits, and 2) the merger of clusters of similar masses, followed by the decoupling of their dense cores. Using simple analytical arguments and checking with numerical computations, we show that objects are destroyed by the tidal field of the global cluster potential if their mean density is small compared to the mean cluster density within the radius of closest approach of the group or detached core. Accreted groups and small clusters are thus tidally disrupted in one cluster crossing. Since the cores of clusters are much denser than groups, they are considerably more robust to tides, but the least massive are destroyed or severely stripped by tides, while the others are brought to the cluster center by dynamical friction (and subsequently merge) in less than one orbit. The longest lived substructures are detached cores, roughly ten times less massive than the cluster, starting in near-circular orbits beyond $1 \, h^{-1} \, \rm Mpc$ from the cluster center.
González-Casado Guillermo
Mamon Gary A.
Salvador-Solé Eduard
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