Number counts and redshift distribution of gravitational arclets as a probe of galaxy evolution

J. Bezecourt, R. Pello, G. Soucail

Published 1997-07-15Version 1

We present a detailed model of the absolute number counts, color and redshift distributions of gravitational arclets observed in clusters of galaxies. The framework adopted for galaxy evolution is chosen to fairly reproduce the observed number counts and redshift distribution of field galaxies. Then, the spectrophotometric evolutionary code is coupled with an accurate modelling of two clusters-lens mass distributions (A2218 and A370). We investigate the influence of the mass modelling on the counts and we show that simple cluster-scale potentials can no longer be used for arcs statistics. The main result is that arcs at redshifts between 0.5 and 1 are correctly predicted by the modelling as observed. Nevertheless, an important population of high redshift arclets (z>1.0) is also revealed by the simulations, which is not observed in spectroscopic surveys of arclets. We discuss the nature of this disagreement, probably due to uncertainties in the evolutionary models. The spatial distribution of arclets in number density and the local mean redshift at each point of the image are derived and can be used to optimize the search for high redshift galaxies.