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Main Authors: Zhang, Zhongyue, Chan, Kwan Chuen, Avila, Santiago, Vos-Gines, Bernhard
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2603.19832
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author Zhang, Zhongyue
Chan, Kwan Chuen
Avila, Santiago
Vos-Gines, Bernhard
author_facet Zhang, Zhongyue
Chan, Kwan Chuen
Avila, Santiago
Vos-Gines, Bernhard
contents Intensity mapping (IM) represents an innovative and potent probe to cosmology. One of its prime applications is to measure the Baryonic Acoustic Oscillations (BAO) in the late universe. We study the BAO measurement by IM in configuration space using simulations, focusing on the impact of the telescope beam and foreground removal effects. Three types of correlation functions are applied to measure BAO, including the radial correlation function, multipole correlation function, and wedge correlation function. We check our pipeline against a set of IM mock catalogs, finding good agreement with the numerical results. We use the mock catalogs to look for the parameter choices that optimize the BAO constraint for the correlation function estimators. With the optimal settings, our pipeline is utilized to forecast the BAO constraint for the 21 cm IM experiments: BINGO, MeerKAT, and SKA-mid. We find that for the low redshift experiments BINGO and MeerKAT, the wedge correlation function achieves the tightest constraint for both the transverse and radial BAO. For SKA-mid, the radial correlation function and wedge correlation function deliver the tightest constraint for the radial and transverse BAO, respectively.
format Preprint
id arxiv_https___arxiv_org_abs_2603_19832
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Recovery of 21 cm BAO: a configuration-space correlation function analysis
Zhang, Zhongyue
Chan, Kwan Chuen
Avila, Santiago
Vos-Gines, Bernhard
Cosmology and Nongalactic Astrophysics
Intensity mapping (IM) represents an innovative and potent probe to cosmology. One of its prime applications is to measure the Baryonic Acoustic Oscillations (BAO) in the late universe. We study the BAO measurement by IM in configuration space using simulations, focusing on the impact of the telescope beam and foreground removal effects. Three types of correlation functions are applied to measure BAO, including the radial correlation function, multipole correlation function, and wedge correlation function. We check our pipeline against a set of IM mock catalogs, finding good agreement with the numerical results. We use the mock catalogs to look for the parameter choices that optimize the BAO constraint for the correlation function estimators. With the optimal settings, our pipeline is utilized to forecast the BAO constraint for the 21 cm IM experiments: BINGO, MeerKAT, and SKA-mid. We find that for the low redshift experiments BINGO and MeerKAT, the wedge correlation function achieves the tightest constraint for both the transverse and radial BAO. For SKA-mid, the radial correlation function and wedge correlation function deliver the tightest constraint for the radial and transverse BAO, respectively.
title Recovery of 21 cm BAO: a configuration-space correlation function analysis
topic Cosmology and Nongalactic Astrophysics
url https://arxiv.org/abs/2603.19832