Weak Lensing Reconstruction by Counting DECaLS Galaxies
Abstract
Alternative to weak lensing measurements through cosmic shear, we present a weak lensing convergence map reconstructed through cosmic magnification effect in DECaLS galaxies of the DESI imaging surveys DR9. This is achieved by linearly weighing 12 maps of galaxy number overdensity in different magnitude bins of grz photometry bands. The weight is designed to eliminate the mean galaxy deterministic bias, minimize galaxy shot noise while maintaining the lensing convergence signal. We also perform corrections of imaging systematics in the galaxy number overdensity. The map has 8365 deg2 sky coverage. Given the low number density of DECaLS galaxies, the map is overwhelmed by shot noise and the map quality is difficult to evaluate using the lensing auto-correlation. Alternatively, we measure its cross-correlation with the cosmic shear catalogs of DECaLS galaxies of DESI imaging surveys DR8, which has 8365 deg2 overlap in sky coverage with the map. We detect a convergence-shear cross-correlation signal with S/N 10. The analysis also shows that the galaxy intrinsic clustering is suppressed by a factor O(102) and the residual galaxy clustering contamination in the map is consistent with zero. Various tests with different galaxy and shear samples, and the Akaike information criterion analysis all support the lensing detection. So is the imaging systematics corrections, which enhance the lensing signal detection by 30\%. We discuss various issues for further improvement of the measurements.
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