The imprint of cosmic voids from the DESI Legacy Survey DR9 LRGs in the Planck 2018 lensing map through spectroscopically calibrated mocks
Abstract
The cross-correlation of cosmic voids with the lensing convergence () map of the Cosmic Microwave Background (CMB) fluctuations provides a powerful tool to refine our understanding of the cosmological model. However, several studies have reported a moderate tension between the lensing imprint of cosmic voids on the observed CMB and the simulated signal. To address this "lensing-is-low" tension and to obtain new, precise measurements, we exploit the large DESI Legacy Survey Luminous Red Galaxy (LRG) dataset, covering approximately 19,500 2 of the sky and including about 10 million LRGs at z < 1.05. Our template was created using the Buzzard mocks, which we specifically calibrated to match the clustering properties of the observed galaxy sample by exploiting more than one million DESI spectra. We identified our catalogs of 3D voids in the range 0.35 < z < 0.95, dividing the sample into bins according to the redshift and λv values of the voids. We report a 14σ detection of the lensing signal, with A = 1.016 0.054, which increases to 17σ when considering the void-in-void (A = 0.944 0.064) and the void-in-cloud (A = 0.975 0.060) populations individually, the highest detection significance for studies of this kind. We observe a full agreement between the observations and predictions across all redshift bins, sky regions, and void populations considered. In addition to these findings, our analysis highlights the importance of matching sparseness and redshift error distributions between mocks and observations, as well as the role of λv in enhancing the signal-to-noise ratio.
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