Towards an Optimal Estimation of Cosmological Parameters with the Wavelet Scattering Transform

arXiv: Cosmology and Nongalactic Astrophysics Pub Date : 2021-08-17 DOI:10.1103/PhysRevD.105.103534

Georgios Valogiannis, C. Dvorkin

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引用次数: 23

Abstract

Optimal extraction of the non-Gaussian information encoded in the Large-Scale Structure (LSS) of the universe lies at the forefront of modern precision cosmology. We propose achieving this task through the use of the Wavelet Scattering Transform (WST), which subjects an input field to a layer of non-linear transformations that are sensitive to non-Gaussianity in spatial density distributions through a generated set of WST coefficients. In order to assess its applicability in the context of LSS surveys, we apply the WST on the 3D overdensity field obtained by the Quijote simulations, out of which we extract the Fisher information in 6 cosmological parameters. It is subsequently found to deliver a large improvement in the marginalized errors on all parameters, ranging between $1.2-4\times$ tighter than the corresponding ones obtained from the regular 3D cold dark matter + baryon power spectrum, as well as a $50 \%$ improvement over the neutrino mass constraint given by the marked power spectrum. Through this first application on 3D cosmological fields, we demonstrate the great promise held by this novel statistic and set the stage for its future application to actual galaxy observations.

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用小波散射变换对宇宙学参数的最优估计

宇宙大尺度结构(Large-Scale Structure, LSS)中编码的非高斯信息的优化提取是现代精密宇宙学的前沿课题。我们建议通过使用小波散射变换(WST)来实现这一任务，该变换通过生成的一组小波散射系数，将输入场放入对空间密度分布的非高斯性敏感的非线性变换层中。为了评估其在LSS巡天中的适用性，我们将WST应用于Quijote模拟得到的三维过密度场，从中提取了6个宇宙学参数中的Fisher信息。随后发现，它在所有参数的边缘误差上都有了很大的改善，比常规的3D冷暗物质+重子功率谱得到的相应误差在1.2-4倍之间，并且比标记功率谱给出的中微子质量约束改善了50%。通过在三维宇宙学领域的首次应用，我们展示了这一新的统计数据所带来的巨大希望，并为其未来在实际星系观测中的应用奠定了基础。

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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arXiv: Cosmology and Nongalactic Astrophysics

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