Abstract
view Abstract Citations (19) References (36) Co-Reads Similar Papers Volume Content Graphics Metrics Export Citation NASA/ADS Origin of Cluster-Cluster Correlation Functions in Biased Structure Formation Scenarios Watanabe, Takuya ; Matsubara, Takahiko ; Suto, Yasushi Abstract We have performed a series of N-body simulations in cold dark matter (CDM) cosmologies in order to study gravitational clustering properties of clusters of galaxies. Specifically, we consider two spatially flat CDM models: ({OMEGA}, λ, h, b) = (1.0. 0.0, 0.5, 1.7) and (0.2, 0.8, 0.75, 1.0), where {OMEGA}, λ, h, and b are the cosmological density parameter, the dimensionless cosmological constant, the Hubble parameter in units of 100 km s^-1^ Mpc^-1^, and the bias parameter, respectively. Clusters of galaxies in the simulations are identified applying an adaptive linking method. Their spatial clustering properties are compared with those for initial density peaks which would be possible sites for cluster formation. The latter predictions are independently obtained on the basis of random-Gaussian theory and from direct simulations. Almost all massive clusters identified in the simulations turn out to contain high-density peaks in qualitative agreement with the previously proposed idea of biased structure formation. Two-point correlation functions for clusters are approximately given by a power-law form and significantly exceed underlying mass correlations. The observed richness- dependent enhancement of the cluster correlation is well reproduced in low-density CDM models, while {OMEGA} = 1 models show weaker cluster correlation compared to the observational counterpart. Three-point correlation function and skewness of the clusters and peaks in these simulations are also discussed. Publication: The Astrophysical Journal Pub Date: September 1994 DOI: 10.1086/174544 Bibcode: 1994ApJ...432...17W Keywords: Astronomical Models; Computerized Simulation; Correlation; Cosmology; Dark Matter; Galactic Clusters; Galactic Evolution; Many Body Problem; Mathematical Models; Missing Mass (Astrophysics); Gravitational Fields; Hubble Constant; Mass Distribution; Spatial Distribution; Astrophysics; COSMOLOGY: THEORY; GALAXIES: CLUSTERING; GALAXIES: FORMATION; METHODS: NUMERICAL full text sources ADS |
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