We precisely constrain the inner mass profile of A2261 (z = 0.225) for the first time and determine that this cluster is not "overconcentrated" as found previously, implying a formation time in agreement with ΛCDM expectations. These results are based on multiple strong-lensing analyses of new 16-band Hubble Space Telescope imaging obtained as part of the Cluster Lensing and Supernova survey with Hubble. Combining this with revised weak-lensing analyses of Subaru wide-field imaging with five-band Subaru + KPNO photometry, we place tight new constraints on the halo virial mass Mvir = (2.2 ± 0.2) × 1015 M⊙ h -170 (within rvir ≈ 3 Mpc h-170) and concentration c vir = 6.2 ± 0.3 when assuming a spherical halo. This agrees broadly with average c(M, z) predictions from recent ΛCDM simulations, which span 5 ≲ 〈c〉 ≲ 8. Our most significant systematic uncertainty is halo elongation along the line of sight (LOS). To estimate this, we also derive a mass profile based on archival Chandra X-ray observations and find it to be ∼35% lower than our lensing-derived profile at r2500 ∼ 600kpc. Agreement can be achieved by a halo elongated with a 2:1 axis ratio along our LOS. For this elongated halo model, we find Mvir = (1.7 ± 0.2) × 1015 M ⊙ h-170 and c vir = 4.6 ± 0.2, placing rough lower limits on these values. The need for halo elongation can be partially obviated by non-thermal pressure support and, perhaps entirely, by systematic errors in the X-ray mass measurements. We estimate the effect of background structures based on MMT/Hectospec spectroscopic redshifts and find that these tend to lower M vir further by ∼7% and increase cvir by ∼5%.
CLASH : precise new constraints on the mass profile of the galaxy cluster A2261 / D. Coe, K. Umetsu, A. Zitrin, M. Donahue, E. Medezinski, M. Postman, M. Carrasco, T. Anguita, M.J. Geller, K.J. Rines, A. Diaferio, M.J. Kurtz, L. Bradley, A. Koekemoer, W. Zheng, M. Nonino, A. Molino, A. Mahdavi, D. Lemze, L. Infante, S. Ogaz, P. Melchior, O. Host, H. Ford, C. Grillo, P. Rosati, Y. Jiménez-Teja, J. Moustakas, T. Broadhurst, B. Ascaso, O. Lahav, M. Bartelmann, N. Benítez, R. Bouwens, O. Graur, G. Graves, S. Jha, S. Jouvel, D. Kelson, L. Moustakas, D. Maoz, M. Meneghetti, J. Merten, A. Riess, S. Rodney, S. Seitz. - In: THE ASTROPHYSICAL JOURNAL. - ISSN 0004-637X. - 757:1(2012 Sep), pp. 22.1-22.19.
CLASH : precise new constraints on the mass profile of the galaxy cluster A2261
C. Grillo;
2012
Abstract
We precisely constrain the inner mass profile of A2261 (z = 0.225) for the first time and determine that this cluster is not "overconcentrated" as found previously, implying a formation time in agreement with ΛCDM expectations. These results are based on multiple strong-lensing analyses of new 16-band Hubble Space Telescope imaging obtained as part of the Cluster Lensing and Supernova survey with Hubble. Combining this with revised weak-lensing analyses of Subaru wide-field imaging with five-band Subaru + KPNO photometry, we place tight new constraints on the halo virial mass Mvir = (2.2 ± 0.2) × 1015 M⊙ h -170 (within rvir ≈ 3 Mpc h-170) and concentration c vir = 6.2 ± 0.3 when assuming a spherical halo. This agrees broadly with average c(M, z) predictions from recent ΛCDM simulations, which span 5 ≲ 〈c〉 ≲ 8. Our most significant systematic uncertainty is halo elongation along the line of sight (LOS). To estimate this, we also derive a mass profile based on archival Chandra X-ray observations and find it to be ∼35% lower than our lensing-derived profile at r2500 ∼ 600kpc. Agreement can be achieved by a halo elongated with a 2:1 axis ratio along our LOS. For this elongated halo model, we find Mvir = (1.7 ± 0.2) × 1015 M ⊙ h-170 and c vir = 4.6 ± 0.2, placing rough lower limits on these values. The need for halo elongation can be partially obviated by non-thermal pressure support and, perhaps entirely, by systematic errors in the X-ray mass measurements. We estimate the effect of background structures based on MMT/Hectospec spectroscopic redshifts and find that these tend to lower M vir further by ∼7% and increase cvir by ∼5%.
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