Primordial Non-Gaussianity Systematics from Redshift Mismatch with SPHEREx

The Astrophysical Journal Pub Date : 2025-05-29 DOI:10.3847/1538-4357/add1b8

Chandra Shekhar Saraf and David Parkinson

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Abstract

The ability to differentiate between different models of inflation through the imprint of primordial non-Gaussianity (PNG) requires stringent constraints on the local PNG parameter . Upcoming data from the large-scale structure surveys like Euclid, Vera C. Rubin Observatory, and the Spectro-Photometer for the History of the Universe, Epoch of Reionization, and Ices Explorer (SPHEREx) will be instrumental in advancing our understanding of the inflationary epoch. In this context, we present forecasts on PNG with tomographic angular power spectra derived from simulations of SPHEREx. We put forward the effects of redshift bin mismatch of galaxies as a significant source of systematic uncertainty in the estimation of both and galaxy linear halo bias. We simulate 500 SPHEREx-like galaxy density fields and divide the galaxies into redshift bins assuming Gaussian photometric redshift errors. We show that the misclassification of galaxies in redshift bins can result in strong apparent tensions on up to ∼3–6σ and up to ∼9–12σ on galaxy bias. To address this, we propose a scattering matrix formalism that mitigates bin mismatch of galaxies and enables unbiased estimation of cosmological parameters from tomographic angular clustering measurements.

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基于SPHEREx的红移失配的原始非高斯系统

通过原始非高斯性（PNG）的印记来区分不同的暴胀模型的能力需要对局部PNG参数进行严格的约束。欧几里得、Vera C. Rubin天文台、宇宙历史、再电离时代分光光度计和冰探测器（SPHEREx）等大规模结构调查即将获得的数据将有助于推进我们对暴胀时代的理解。在这种情况下，我们提出了利用SPHEREx模拟得出的层析角功率谱预测PNG。我们提出星系红移仓不匹配的影响是估计星系和星系线性晕偏差的系统不确定性的一个重要来源。我们模拟了500个类似spherex的星系密度场，并在假设高斯光度红移误差的情况下将星系划分为红移箱。我们发现，红移箱中星系的错误分类可以导致星系偏差上高达~ 3-6σ和高达~ 9-12σ的强视张力。为了解决这个问题，我们提出了一种散射矩阵形式，可以减轻星系的bin不匹配，并能够从层析角度聚类测量中无偏估计宇宙学参数。

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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The Astrophysical Journal

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