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Autores principales: Luan, Tian-Cheng, Wang, Xin, Ding, Jiacheng, Li, Qian, Li, Xiao-Dong, Zhu, Weishan
Formato: Preprint
Publicado: 2025
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Acceso en línea:https://arxiv.org/abs/2503.20434
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author Luan, Tian-Cheng
Wang, Xin
Ding, Jiacheng
Li, Qian
Li, Xiao-Dong
Zhu, Weishan
author_facet Luan, Tian-Cheng
Wang, Xin
Ding, Jiacheng
Li, Qian
Li, Xiao-Dong
Zhu, Weishan
contents Radio observation of the large-scale structure (LSS) of our Universe faces major challenges from foreground contamination, which is many orders of magnitude stronger than the cosmic signal. While other foreground removal techniques struggle with complex systematics, methods like foreground avoidance emerge as effective alternatives. However, this approach inevitably results in the loss of Fourier modes and a reduction in cosmological constraints. We present a novel method that, by enforcing the non-negativity of the observed field in real space, allows us to recover some of the lost information, particularly phase angles. We demonstrate that the effectiveness of this straightforward yet powerful technique arises from the mode mixing from the non-linear evolution of LSS. Since the non-negativity is ensured by mass conservation, one of the key principles of the cosmic dynamics, we can restore the lost modes without explicitly expressing the exact form of the mode mixing. Unlike previous methods, our approach utilizes information from highly non-linear scales, and has the potential to revolutionize the analysis of radio observational data in cosmology. Crucially, we demonstrate that in long-baseline interferometric observations, such as those from the Square Kilometre Array (SKA), it is still possible to recover the baryonic acoustic oscillation (BAO) signature despite not directly covering the relevant scales. This opens up potential future survey designs for cosmological detection.
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publishDate 2025
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spellingShingle Recovering Cosmic Structure with a Simple Physical Constraint
Luan, Tian-Cheng
Wang, Xin
Ding, Jiacheng
Li, Qian
Li, Xiao-Dong
Zhu, Weishan
Cosmology and Nongalactic Astrophysics
Radio observation of the large-scale structure (LSS) of our Universe faces major challenges from foreground contamination, which is many orders of magnitude stronger than the cosmic signal. While other foreground removal techniques struggle with complex systematics, methods like foreground avoidance emerge as effective alternatives. However, this approach inevitably results in the loss of Fourier modes and a reduction in cosmological constraints. We present a novel method that, by enforcing the non-negativity of the observed field in real space, allows us to recover some of the lost information, particularly phase angles. We demonstrate that the effectiveness of this straightforward yet powerful technique arises from the mode mixing from the non-linear evolution of LSS. Since the non-negativity is ensured by mass conservation, one of the key principles of the cosmic dynamics, we can restore the lost modes without explicitly expressing the exact form of the mode mixing. Unlike previous methods, our approach utilizes information from highly non-linear scales, and has the potential to revolutionize the analysis of radio observational data in cosmology. Crucially, we demonstrate that in long-baseline interferometric observations, such as those from the Square Kilometre Array (SKA), it is still possible to recover the baryonic acoustic oscillation (BAO) signature despite not directly covering the relevant scales. This opens up potential future survey designs for cosmological detection.
title Recovering Cosmic Structure with a Simple Physical Constraint
topic Cosmology and Nongalactic Astrophysics
url https://arxiv.org/abs/2503.20434