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Main Authors: Chan, Kwan Chuen, Li, Yin, McCullough, Jamie
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2605.11658
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author Chan, Kwan Chuen
Li, Yin
McCullough, Jamie
author_facet Chan, Kwan Chuen
Li, Yin
McCullough, Jamie
contents Tensions often arise between different datasets in cosmology, and consistency tests can serve as a powerful tool for diagnosing potential issues. The density-shear Baryon Acoustic Oscillations (GI BAO) are the imprint of the BAO feature on the shear field induced by the large-scale tidal field. We highlight that GI BAO can provide a robust consistency check for the density BAO, shear measurement, and alignment model. Failure of this check hints at systematics in any of these parts. As an illustration, we present the first GI BAO measurement on photometric data, using the DES Y3 dataset. We find the GI BAO constraint on the BAO scale dilation parameter $α$ to be $ 0.966 \pm 0.252 $ (1$σ$), in good agreement with the density BAO constraint, $ 0.966 \pm 0.037 $, thereby validating the density BAO, shear measurement, and the linear alignment model. Furthermore, we argue that combining the density BAO with the GI BAO yields results that are more resilient to systematic effects. Thanks to the massive data volumes of stage IV surveys, the GI BAO will play an even more prominent role as a consistency check.
format Preprint
id arxiv_https___arxiv_org_abs_2605_11658
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle GI BAO as a cosmological consistency check
Chan, Kwan Chuen
Li, Yin
McCullough, Jamie
Cosmology and Nongalactic Astrophysics
Tensions often arise between different datasets in cosmology, and consistency tests can serve as a powerful tool for diagnosing potential issues. The density-shear Baryon Acoustic Oscillations (GI BAO) are the imprint of the BAO feature on the shear field induced by the large-scale tidal field. We highlight that GI BAO can provide a robust consistency check for the density BAO, shear measurement, and alignment model. Failure of this check hints at systematics in any of these parts. As an illustration, we present the first GI BAO measurement on photometric data, using the DES Y3 dataset. We find the GI BAO constraint on the BAO scale dilation parameter $α$ to be $ 0.966 \pm 0.252 $ (1$σ$), in good agreement with the density BAO constraint, $ 0.966 \pm 0.037 $, thereby validating the density BAO, shear measurement, and the linear alignment model. Furthermore, we argue that combining the density BAO with the GI BAO yields results that are more resilient to systematic effects. Thanks to the massive data volumes of stage IV surveys, the GI BAO will play an even more prominent role as a consistency check.
title GI BAO as a cosmological consistency check
topic Cosmology and Nongalactic Astrophysics
url https://arxiv.org/abs/2605.11658