Nonlinear Information from DESI Luminous Red Galaxies: An Emulator-Based Analysis of Pre- and Post-Reconstruction Power Spectra
Abstract
We present joint measurements of the pre- and post-reconstruction power spectra, P pre and P post, together with their cross-power spectrum, P cross, for the Luminous Red Galaxies (LRGs) in the DESI Data Release 1 (DR1). We jointly analyse these observables with an emulator-based full-shape modeling framework, thereby, for the first time, we extract complementary nonlinear information from the galaxy density field before and after reconstruction in real survey data. Specifically, including P post and P cross in addition to P pre (hereafter P all) yields an improvement of approximately 18-27\% in the σ8 constraint in both and wCDM, depending on the redshift bin, relative to the P pre-only analysis with the cosmic microwave background distance priors (hereafter CMB). In wCDM, the joint CMB+P all analysis can tighten the constraints on w by approximately 5-15\% across the two LRG redshift bins, compared to the CMB+P pre combination. Further incorporating the Type Ia supernova dataset and comparing the cosmological constraints in wCDM from each individual power-spectrum component with those from the full combination, we find that P all consistently provides the tightest constraints. From the joint CMB+P all+DES-Dovekie dataset, we obtain m = 0.314 0.0048 and w = -0.988 0.023 for the LRG1 sample, and m = 0.318 0.0046 and w = -0.988 0.025 for LRG2. These results demonstrate that combining pre- and post-reconstruction power spectra with their cross-correlation enables DESI to harvest additional nonlinear information, leading to tighter constraints on cosmological parameters.
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