Giant Arc Statistics and Cosmological Parameters
R. Kaufmann,Norbert Straumann +1 more
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TLDR
In this paper, the authors studied the statistics of pronounced arcs caused by lensing of galaxies by foreground galaxy clusters, and the dependence of the expected statistics on the cosmological parameters, M, �, was investigated.Abstract:
We study with semi-analytical methods the statistics of pronounced arcs caused by lensing of galaxies by foreground galaxy clusters. For the number density and redshift distribution of rich clusters we use Press-Schechter theory, normalized on the basis of empirical data. For the background sources we make use of observational results in the Hubble Deep Field. We present results for three different lens models, in particular for the universal profile suggested by Navarro, Frenk and White. Our primary concern is the dependence of the expected statistics on the cosmological parameters, M, �. The theoretical estimates are compared with the cluster arcs survey EMSS, and the resulting constraints in the -plane are presented. In spite of considerable theoretical an observational uncertainties a low-density universe is favored. Degeneracy curves for the optical depth and likelihood regions for the arc statistics in the -plane depend only weakly on the cosmological constant.read more
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Gravitational Lensing
TL;DR: Gravitational lensing has developed into one of the most powerful tools for the analysis of the dark universe as mentioned in this paper, and its main current applications and representative results achieved so far.
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Evolution of the Galaxy Population Based on Photometric Redshifts in the Hubble Deep Field
TL;DR: In this article, the authors presented the results of a photometric redshift study of galaxies in the Hubble Deep Field (HDF), and the dangers inherent in using it to estimate redshifts, particularly at very high z, are discussed.
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Statistics of giant arcs in galaxy clusters
TL;DR: In this article, the authors studied the expected properties and statistics of giant arcs produced by galaxy clusters in a CDM (cold dark matter) universe and investigated how the characteristics of CDM clusters determine the properties of the arcs they generate.
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Semianalytical Models for Lensing by Dark Halos. I. Splitting Angles
Li-Xin Li,Jeremiah P. Ostriker +1 more
TL;DR: The sensitivity of the predictions for probabilities of image separations to the input assumptions regarding the properties of halos and cosmological models has been investigated in this article, showing that the lensing probability is extremely sensitive to the mass density profile of lenses (dark halos) and somewhat less so to the mean mass density in the universe and the amplitude of primordial fluctuations.
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The impact of cluster mergers on arc statistics
Elena Torri,Massimo Meneghetti,Matthias Bartelmann,Lauro Moscardini,Elena Rasia,Giuseppe Tormen +5 more
TL;DR: In this paper, the impact of merger events on the strong lensing properties of galaxy clusters was studied, and it was shown that the shape of the critical lines and caustics changes substantially.
References
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