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iDEA: DREXEL LIBRARIES E-REPOSITORY AND ARCHIVES

iDEA: DREXEL LIBRARIES E-REPOSITORY AND ARCHIVES

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High-resolution simulations of cluster formation

Details
Title
High-resolution simulations of cluster formation
Author(s)
Goldberg, David; Brainerd, Tereasa; Villumsen, Jens Verner
Keywords
Cosmology: Dark Matter; Cosmology: Large-Scale Structure Of The Universe; Cosmology: Theory; Methods: Numerical
Date
1997-06-16
Abstract
The formation history of rich clusters is investigated using a hybrid N-body simulation in which high spatial and mass resolution can be achieved self-consistently within a small region of a very large volume. The evolution of three massive clusters is studied via mass accretion, spherically-averaged density profiles, three-dimensional and projected shapes, and degree of substructure. Each cluster consists of 4 × 105 particles at the present epoch and in the case that rich cluster evolution is well-described by a 1-parameter family, the simulations have sufficient resolution to demonstrate this. At z = 0 the clusters have similar masses, M(r 1.5h−1Mpc) 2 × 1015h−1M⊙, and similar spherically-averaged density profiles, however markedly different formation histories are observed. No single, dominant pattern is apparent in the time variation of the mass accretion rate, the cluster shape, or the degree of substructure. Although not a statistically large sample, these objects suggest that the detailed formation history of rich clusters cannot be characterized by a simple 1-parameter family. These results suggest that the use of observations of rich clusters over a wide range of redshifts to constrain cosmological parameters may not be entirely straightforward.
Citation
The Astrophysical Journal.
URI
http://arxiv.org/abs/astro-ph/9706165v1; http://hdl.handle.net/1860/1911
In Collections
Drexel Research

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