期刊
ASTROPHYSICAL JOURNAL
卷 714, 期 2, 页码 1470-1496出版社
IOP PUBLISHING LTD
DOI: 10.1088/0004-637X/714/2/1470
关键词
cosmology: observations; galaxies: clusters: individual (C10024+1654); gravitational lensing: weak
资金
- National Science Council of Taiwan [NSC97-2112-M-001-020-MY3]
- ASC/Alliance Center for Astrophysical Thermonuclear Flashes
We derive an accurate mass distribution of the rich galaxy cluster C10024+1654 (z = 0.395) based on deep Subaru BR(c)z' imaging and our recent comprehensive strong-lensing analysis of Hubble Space Telescope/Advanced Camera for Surveys/NIC3 observations. We obtain the weak-lensing distortion and magnification of undiluted samples of red and blue background galaxies by carefully combining all color and positional information. Unlike previous work, the weak and strong lensing are in excellent agreement where the data overlap. The joint mass profile continuously steepens out to the virial radius with only a minor contribution similar to 10% in the mass from known subcluster at a projected distance of similar or equal to 700 kpc h(-1). The cluster light profile closely resembles the mass profile, and our model-independent M/L-R profile shows an overall flat behavior with a mean of < M/L-R > similar or equal to 230h(M/LR)(circle dot), but exhibits a mild declining trend with increasing radius at cluster outskirts, r greater than or similar to 0.6r(vir). The projected mass distribution for the entire cluster is well fitted with a single Navarro-Frenk-White model with a virial mass, M-vir = (1.2 +/- 0.2) x 10(15)M(circle dot) h(-1), and a concentration, c(vir) = 9.2(-1.2)(+1.4). This model fit is fully consistent with the depletion of the red background counts, providing independent confirmation. Careful examination and interpretation of X-ray and dynamical data, based on recent high-resolution cluster collision simulations, strongly suggest that this cluster system is in a post collision state, which we show is consistent with our well-defined mass profile for a major merger occurring along the line of sight, viewed approximately 2-3 Gyr after impact when the gravitational potential has had time to relax in the center, before the gas has recovered and before the outskirts are fully virialized. Finally, our full lensing analysis provides a model-independent constraint of M-2D(
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