Reconstructing the history of dark energy using maximum entropy     

Caroline Zunckel  Roberto Trotta 《Monthly notices of the Royal Astronomical Society》2007,380(3):865-876

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The halo mass function from the dark ages through the present day     

Darren S. Reed  Richard Bower  Carlos S. Frenk  Adrian Jenkins  Tom Theuns 《Monthly notices of the Royal Astronomical Society》2007,374(1):2-15

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A potentially pure test of cosmic geometry: galaxy clusters and the real space Alcock–Paczyński test     

Young-Rae Kim  Rupert A. C. Croft 《Monthly notices of the Royal Astronomical Society》2007,374(2):535-546

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The shape of the gravitational potential in cold dark matter haloes     

Eric Hayashi  Julio F. Navarro †  Volker Springel 《Monthly notices of the Royal Astronomical Society》2007,377(1):50-62

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Separation of the visible and dark matter in the Einstein ring LBG J213512.73−010143     

Simon Dye  Ian Smail  A. M. Swinbank  H. Ebeling  A. C. Edge 《Monthly notices of the Royal Astronomical Society》2007,379(1):308-316

We model the mass distribution in the recently discovered Einstein ring LBG J213512.73−010143 (the 'Cosmic Eye') using archival Hubble Space Telescope imaging. We reconstruct the mass density profile of the z = 0.73 lens and the surface brightness distribution of the z = 3.07 source and find that the observed ring is best fitted with a dual-component lens model consisting of a baryonic Sersic component nested within a dark matter halo. The dark matter halo has an inner slope of 1.42^+0.24_−0.22, consistent with cold dark matter simulations after allowing for baryon contraction. The baryonic component has a mass-to-light ratio of  1.71^+0.28_−0.38 M_⊙/L _{B ⊙}  which when evolved to the present day is in agreement with local ellipticals. Within the Einstein radius of 0.77 arcsec (5.6 kpc), the baryons account for 46 ± 11 per cent of the projected lens mass. External shear from a nearby foreground cluster is accurately predicted by the model. The reconstructed surface brightness distribution in the source plane clearly shows two peaks. Through a generalization of our lens inversion method, we conclude that the redshifts of both peaks are consistent with each other, suggesting that we are seeing structure within a single galaxy.  相似文献   

Properties of wide-separation lensed quasars by clusters of galaxies in the Sloan Digital Sky Survey     

G. L. Li  S. Mao  Y. P. Jing  W. P. Lin  M. Oguri 《Monthly notices of the Royal Astronomical Society》2007,378(2):469-481

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The importance of interloper removal in galaxy clusters: saving more objects for the Jeans analysis     

Rados&#;aw Wojtak  Ewa L. &#;okas 《Monthly notices of the Royal Astronomical Society》2007,377(2):843-854

We study the effect of contamination by interlopers in kinematic samples of galaxy clusters. We demonstrate that without the proper removal of interlopers the inferred parameters of the mass distribution in the cluster are strongly biased towards higher mass and lower concentration. The interlopers are removed using two procedures previously shown to work most efficiently on simulated data. One is based on using the virial mass estimator and calculating the maximum velocity available to cluster members and the other relies on the ratio of the virial and projected mass estimators. We illustrate the performance of the methods in detail using the example of A576, a cluster with a strong uniform background contamination, and compare the case of A576 to 15 other clusters with different degree of contamination. We model the velocity dispersion and kurtosis profiles obtained for the cleaned data samples of these clusters solving the Jeans equations to estimate the mass, concentration and anisotropy parameter. We present the mass–concentration relation for the total sample of 22 clusters.  相似文献   

The spin and shape of dark matter haloes in the Millennium simulation of a Λ cold dark matter universe     

Philip Bett  Vincent Eke  Carlos S. Frenk  Adrian Jenkins  John Helly  Julio Navarro 《Monthly notices of the Royal Astronomical Society》2007,376(1):215-232

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Strong lensing statistics in large, z≲ 0.2, surveys: bias in the lens galaxy population     

Ole Möller  Manfred Kitzbichler  Priyamvada Natarajan 《Monthly notices of the Royal Astronomical Society》2007,379(3):1195-1208

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The concentration–velocity dispersion relation in galaxy groups     

Andreas Faltenbacher  William G. Mathews 《Monthly notices of the Royal Astronomical Society》2007,375(1):313-323

Based on results from cold dark matter N -body simulations, we develop a dynamical model for the evolution of subhaloes within group-sized host haloes. Only subhaloes more massive than 5 × 10⁸ M_⊙ are considered, because they are massive enough to possibly host luminous galaxies. On their orbits within a growing host potential the subhaloes are subject to tidal stripping and dynamical friction. At the present time  ( z = 0)  , all model hosts have equal mass  ( M _vir= 3.9 × 10¹³ M_⊙)  but different concentrations associated with different formation times. We investigate the variation of subhalo (or satellite galaxy) velocity dispersion with host concentration and/or formation time. In agreement with the Jeans equation, the velocity dispersion of subhaloes increases with the host concentration. Between concentrations of ∼5 and ∼20, the subhalo velocity dispersions increase by a factor of ∼1.25. By applying a simplified tidal disruption criterion, that is, rejection of all subhaloes with a tidal truncation radius below 3  kpc at   z = 0  , the central velocity dispersion of the 'surviving' subhalo sample increases substantially for all concentrations. The enhanced central velocity dispersions in the surviving subhalo samples are caused by a lack of slow tangential motions. Additionally, we present a fitting formula for the anisotropy parameter which does not depend on concentration if the group-centric distances are scaled by r _s, the characteristic radius of the Navarro, Frenk & White profile. Since the expected loss of subhaloes and galaxies due to tidal disruption increases the velocity dispersion of surviving galaxies, the observed galaxy velocity dispersion can substantially overestimate the virial mass.  相似文献