Baryon Acoustic Oscillation Theory and Modelling Systematics for the DESI 2024 results

IF 4.7 3区物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS Monthly Notices of the Royal Astronomical Society Pub Date : 2024-09-06 DOI:10.1093/mnras/stae2090

Shi-Fan Chen, Cullan Howlett, Martin White, Patrick McDonald, Ashley J Ross, Hee-Jong Seo, Nikhil Padmanabhan, J Aguilar, S Ahlen, S Alam, O Alves, U Andrade, R Blum, D Brooks, X Chen, S Cole, K Dawson, A de la Macorra, Arjun Dey, Z Ding, P Doel, S Ferraro, A Font-Ribera, D Forero-Sánchez, J E Forero-Romero, C Garcia-Quintero, E Gaztañaga, S Gontcho A Gontcho, M M S Hanif, K Honscheid, T Kisner, A Kremin, A Lambert, M Landriau, M E Levi, M Manera, A Meisner, J Mena-Fernández, R Miquel, A Munoz-Gutierrez, E Paillas, N Palanque-Delabrouille, W J Percival, A Pérez-Fernández, F Prada, M Rashkovetskyi, M Rezaie, A Rosado-Marin, G Rossi, R Ruggeri, E Sanchez, D Schlegel, J Silber, G Tarlé, M Vargas-Magaña, B A Weaver, J Yu, S Yuan, R Zhou, Z Zhou

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Abstract

This paper provides a comprehensive overview of how fitting of Baryon Acoustic Oscillations (BAO) is carried out within the upcoming Dark Energy Spectroscopic Instrument’s (DESI) 2024 results using its DR1 dataset, and the associated systematic error budget from theory and modelling of the BAO. We derive new results showing how non-linearities in the clustering of galaxies can cause potential biases in measurements of the isotropic (αiso) and anisotropic (αap) BAO distance scales, and how these can be effectively removed with an appropriate choice of reconstruction algorithm. We then demonstrate how theory leads to a clear choice for how to model the BAO and develop, implement and validate a new model for the remaining smooth-broadband (i.e., without BAO) component of the galaxy clustering. Finally, we explore the impact of all remaining modelling choices on the BAO constraints from DESI using a suite of high-precision simulations, arriving at a set of best-practices for DESI BAO fits, and an associated theory and modelling systematic error. Overall, our results demonstrate the remarkable robustness of the BAO to all our modelling choices and motivate a combined theory and modelling systematic error contribution to the post-reconstruction DESI BAO measurements of no more than 0.1% (0.2%) for its isotropic (anisotropic) distance measurements. We expect the theory and best-practices laid out to here to be applicable to other BAO experiments in the era of DESI and beyond.

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重子声学振荡理论和 DESI 2024 结果的建模系统学

本文全面概述了在即将推出的暗能量光谱仪（DESI）2024 年结果中如何利用其 DR1 数据集进行重子声振荡（BAO）拟合，以及从 BAO 理论和建模中得出的相关系统误差预算。我们得出的新结果表明，星系聚类中的非线性如何导致各向同性（αiso）和各向异性（αap）BAO距离尺度测量的潜在偏差，以及如何通过选择适当的重建算法有效地消除这些偏差。然后，我们展示了理论如何为如何建立 BAO 模型带来明确的选择，并为星系聚类中剩余的平滑宽带（即不含 BAO）部分建立、实施和验证了一个新模型。最后，我们利用一套高精度模拟，探讨了所有剩余建模选择对来自DESI的BAO约束的影响，得出了一套DESI BAO拟合的最佳做法，以及相关的理论和建模系统误差。总之，我们的结果表明，BAO 对我们所有的建模选择都具有显著的鲁棒性，并激励我们将理论和建模的系统误差结合起来，使 DESI BAO 重建后的各向同性（各向异性）距离测量值不超过 0.1%（0.2%）。我们希望这里提出的理论和最佳实践能够适用于 DESI 时代及以后的其他 BAO 实验。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Monthly Notices of the Royal Astronomical Society ASTRONOMY & ASTROPHYSICS-

CiteScore

9.10

自引率

37.50%

发文量

3198

审稿时长

3 months

期刊介绍： Monthly Notices of the Royal Astronomical Society is one of the world''s leading primary research journals in astronomy and astrophysics, as well as one of the longest established. It publishes the results of original research in positional and dynamical astronomy, astrophysics, radio astronomy, cosmology, space research and the design of astronomical instruments.