The probability distribution of cluster formation times and implied Einstein radii |
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Authors: | Sharon Sadeh Yoel Rephaeli |
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Affiliation: | School of Physics and Astronomy, Tel Aviv University, Tel Aviv 69978, Israel;Center for Astrophysics and Space Sciences, University of California, San Diego, La Jolla, CA 92093-0424, USA |
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Abstract: | We provide a quantitative assessment of the probability distribution function of the concentration parameter of galaxy clusters. We do so by using the probability distribution function of halo formation times, calculated by means of the excursion set formalism, and a formation redshift-concentration scaling derived from results of N -body simulations. Our results suggest that the observed high concentrations of several clusters are quite unlikely in the standard Λ cold dark matter (ΛCDM) cosmological model, but that due to various inherent uncertainties, the statistical range of the predicted distribution may be significantly wider than commonly acknowledged. In addition, the probability distribution function of the Einstein radius of A1689 is evaluated, confirming that the observed value of ∼45 ± 5 arcsec is very improbable in the currently favoured cosmological model. If, however, a variance of ∼20 per cent in the theoretically predicted value of the virial radius is assumed, then the discrepancy is much weaker. The measurement of similarly large Einstein radii in several other clusters would pose a difficulty to the standard model. If so, earlier formation of the large-scale structure would be required, in accord with predictions of some quintessence models. We have indeed verified that in a viable early dark energy model large Einstein radii are predicted in as many as a few tens of high-mass clusters. |
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Keywords: | gravitational lensing galaxies: clusters: general large-scale structure of Universe |
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