Angular Cross-Correlation of Galaxies: A Probe of Gravitational Lensing by Large-Scale Structure
Abstract
The angular cross-correlation between two galaxy samples separated in redshift is shown to be a useful measure of weak lensing by large-scale structure. Angular correlations in faint galaxies arise due to spatial clustering of the galaxies as well as gravitational lensing by dark matter along the line-of-sight. The lensing contribution to the 2-point auto-correlation function is typically small compared to the gravitational clustering. However the cross-correlation between two galaxy samples is nearly unaffected by gravitational clustering provided their redshift distributions do not overlap. The cross-correlation is then induced by magnification bias due to lensing by large-scale structure. We compute the expected amplitude of the cross-correlation for popular theoretical models of structure formation. For two populations with mean redshifts of 0.3 and 1, we find a cross-correlation signal of 1% on arcminute scales and 3% on a few arcseconds. The dependence on the cosmological parameters and , on the dark matter power spectrum and on the bias factor of the foreground galaxy population is explored.
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