The Most Massive Distant Clusters: Determining Ω and σ8 | Zendy

Neta A. Bahcall | Zendy; Xiaohui Fan | Zendy

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The Most Massive Distant Clusters: Determining Ω and σ₈

Author(s) -

Neta A. Bahcall,

Xiaohui Fan

Publication year - 1998

Publication title -

the astrophysical journal

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 2.376

H-Index - 489

eISSN - 1538-4357

pISSN - 0004-637X

DOI - 10.1086/306088

Subject(s) - omega , sigma , physics , galaxy cluster , velocity dispersion , astrophysics , cluster (spacecraft) , amplitude , universe , weak gravitational lensing , galaxy , gravitation , dispersion (optics) , redshift , quantum mechanics , computer science , programming language

The existence of the three most massive clusters of galaxies observed so farat z>0.5 is used to constrain the mass density parameter of the universe,Omega, and the amplitude of mass fluctuations, sigma_8. We find Omega=0.2(+0.3,-0.1), and sigma_8=1.2 (+0.5,-0.4) (95 %). We show that the existence ofeven the single most distant cluster at z=0.83, MS1054-03, with its largegravitational lensing mass, high temperature, and large velocity dispersion, issufficient to establish powerful constraints. High-density, Omega=1 (sigma_8 ~0.5-0.6) Gaussian models are ruled out by these data (< 10^{-6} probability);the Omega=1 models predict only ~10^{-5} massive clusters at z > 0.65 (~10^{-3}at z > 0.5) instead of the 1 (3) clusters observed.Comment: 14 pages, 4 Postscript figures, ApJ in pres

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